In one aspect, a pet access apparatus including an actuator and a pet door movable between a closed position and an open position. The pet access apparatus includes communication circuitry to receive a signal indicative of proximity of a pet to the pet door. The pet access apparatus includes an interior camera, an exterior camera, and a processor operably coupled to the actuator, the communication circuitry, the interior camera, and the exterior camera. The processor is configured to determine an attempt by the pet to operate the pet door based at least in part on the proximity of the pet to the pet door, the interior image data, and the exterior image data. The processor is further configured to facilitate movement of the pet door from the closed position toward the open position upon the determination of the attempt by the pet to operate the pet door.
In one aspect, a movable barrier operator includes a housing and a motor. The movable barrier operator further includes a camera mount that is connected to the housing and that supports a camera. The camera mount is configured to facilitate movement of the camera between a storage position wherein at least a portion of the camera is inside the housing and an operative position wherein the at least a portion of the camera is outside of the housing.
In one aspect, an object detection system is provided that adapts to the distance between the emitter and receiver. The system may utilize a range determining operation whereby the receiver will adjust an operation threshold, such as the detected signal strength required for the receiver to indicate that no object is present. The system may increase the threshold of the receiver as the strength of the received signal from the emitter increases, and upon certain conditions, decrease the threshold of the receiver as the strength of the received signal decreases. The system may utilize different receiver thresholds corresponding with different distance ranges between the emitter and receiver. By increasing the threshold of the receiver, the system may disregard low-level reflected light, thereby avoiding ignoring legitimate obstructions, while allowing the system to operate reliably over a wide physical range between the emitter and receiver.
G01V 8/12 - Detecting, e.g. by using light barriers using one transmitter and one receiver
G08B 21/02 - Alarms for ensuring the safety of persons
G08B 5/36 - Visible signalling systems, e.g. personal calling systems, remote indication of seats occupied using electromagnetic transmission using visible light sources
In accordance with one aspect of the present disclosure, a movable barrier operator including a body, a motor supported by the body, and a rotatable drive supported by the body and configured to be connected to an elongated driven member. The movable barrier operator further includes a shaft supported by the body and a compound gear mounted on the shaft. The compound gear includes a first gear operably coupled to a drive shaft of the motor and a second gear operably coupled to the rotatable drive. The first and second gears connected such that turning of the first gear causes turning of the second gear.
E05F 15/668 - Power-operated mechanisms for wings using electrical actuators using rotary electromotors for vertically-sliding wings for overhead wings
E05F 15/41 - Detection by monitoring transmitted force or torque; Safety couplings with activation dependent upon torque or force, e.g. slip couplings
E05F 15/665 - Power-operated mechanisms for wings using electrical actuators using rotary electromotors for vertically-sliding wings
5.
MOVABLE BARRIER OPERATOR AND TRANSMITTER PAIRING OVER A NETWORK
In one aspect of the present disclosure, a system and method are provided for pairing a network-enabled movable barrier operator with a transmitter. The method may include receiving a pairing request, retrieving a hashed version of the transmitter fixed code, verifying access authorization, and forwarding the hashed version of the transmitter fixed code to a movable barrier operator to allow the movable barrier operator to determine whether a new transmitter is authorized to control the movable barrier operator.
In accordance with one aspect of the disclosure, an apparatus is provided that includes a database configured to store one or more vehicle status parameters of a vehicle and one or more secured space status parameters of a secured space. The apparatus further includes a server-based processor operatively coupled or connected to the database and configured to receive one or more of the one or more vehicle status parameters and one or more of the one or more secured space status parameters. The server-based processor is further configured to determine, based on at least one of the one or more vehicle status parameters and at least one of the one or more secured space status parameters whether to change a state of the vehicle.
F02D 41/04 - Introducing corrections for particular operating conditions
B60K 28/00 - Safety devices for propulsion-unit control, specially adapted for, or arranged in, vehicles, e.g. preventing fuel supply or ignition in the event of potentially dangerous conditions
7.
SYSTEMS AND METHODS FOR VOICE-ACTIVATED CONTROL OF AN ACCESS CONTROL PLATFORM
The systems and methods provided herein use a rolling voice identifier in a multi-factor authentication system to avoid the security problems present in prior voice activated control systems. By implementing a rolling voice identifier in an access control platform, users may no longer need to be concerned with being overheard or recorded when providing voice authentication commands to an access control platform because the rolling voice identifier that the user will be prompted to speak will be specific to the particular instance of control of an access control platform. An access control platform is a platform that controls operation of a movable barrier by, for example, controlling the state of a movable barrier using a remote control. An access control platform may cause a movable barrier to become opened, closed, locked, or unlocked to permit or prevent access to a physical space by a physical object.
E05F 15/76 - Power-operated mechanisms for wings with automatic actuation responsive to movement or presence of persons or objects responsive to devices carried by persons or objects, e.g. magnets or reflectors
E05F 15/77 - Power-operated mechanisms for wings with automatic actuation using wireless control
G01L 17/00 - Devices or apparatus for measuring tyre pressure or the pressure in other inflated bodies
8.
SYSTEM AND METHOD FOR FACILITATING ACCESS TO A SECURED AREA
In one aspect, a portable electronic device is provided for accessing a secured area to deliver a package therein. The portable electronic device includes a sensor configured to detect an indicium of the package and communication circuitry configured to communicate a message to a server computer associated with the package upon the sensor detecting the indicium. The communication circuitry is further configured to receive delivery information from the server computer, the delivery information including at least a location of the secured area. The portable electronic device further includes a processor operatively coupled to the sensor and the communication circuitry. The processor is configured to cause, via the communication circuitry, the movable barrier operator to open a movable barrier associated with the secured area.
A movable barrier operator system including a movable barrier operator configured to be connected to a movable barrier and move the movable barrier. The system includes a remote control configured to utilize a first security protocol to wirelessly transmit a communication to the movable barrier operator and cause the movable barrier operator to move the movable barrier. The movable barrier operator is configured to receive information representative of a second security protocol and to eliminate a compatibility of the movable barrier operator with communications from the remote control utilizing the first security protocol.
Electronic systems are provided for secure actuation of a remote device such as a moveable barrier operator. The systems address the "man in the middle" problem of persons intercepting and duplicating radio frequency signals from a control device by introducing timing parameters into a bidirectional communication sequence between at least two devices.
G07C 9/00 - Individual registration on entry or exit
H04L 29/06 - Communication control; Communication processing characterised by a protocol
H04L 9/32 - Arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system
A movable barrier operator comprising a motor, communication circuitry configured to receive a control signal and communicate with a door lock associated with a passageway door, and a controller. The controller is configured to authenticate the control signal, wherein authenticating the control signal includes associating the signal with a first level of access or a second level of access. The controller is further configured to communicate with the door lock via the communication circuitry to permit opening of the passageway door in response to associating the control signal with the first level of access and inhibit opening of the passageway door in response to associating the control signal with the second level of access. The controller is configured to cause the motor to open the movable barrier regardless of association of the control signal with the first level of access or the second level of access.
A packaged apparatus includes a wireless communication device capable of communicating via a variety of different communication protocols. The communication device can be adapted to communicate according to one particular communication protocol from within the package and without physical access to the device. Accordingly, the configuration of the communication device can take place after packaging and either before, during, of after shipment of the product. The packaged apparatus communicates with an external device, reads, or receives information from the external device and then configures the communication device based on the read or received information. The external device can be an identification tag read by a reading device within the package, or it can be a transmitter that transmits signals that can be read by a communication device internal to the package.
H04Q 5/22 - Selecting arrangements wherein two or more subscriber stations are connected by the same line to the exchange with indirect connection, i.e. through subordinate switching centre the subordinate centre not permitting interconnection of subscribers connected thereto
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
A control panel is configured to operate one or more dock devices in a loading dock environment. The control panel can be supported at least in part by a bollard disposed in the loading dock environment. In one form, the bollard is configured to contain portions of the control panel and dock devices including sensors, lights, and the like. In one form, the control panel and one or more dock devices are mounted to a preexisting bollard to add functionality to the loading dock environment.
E01F 15/00 - Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
In accordance with one aspect of the present disclosure, a head unit of a movable barrier operator is provided including a motor for moving a movable barrier and a first circuit board operable to provide power to the motor. The head unit includes a fire-resistant container that contains the first circuit board. This permits the electrical components of the head unit that utilize higher voltage, such as 120 volts, to be provided on the first circuit board and contained in the fire-resistant container. The head unit further includes a second circuit board outside of the fire-resistant container and operably coupled to the first circuit board. Because the second circuit board is outside of the fire-resistant container, the second circuit board may contain electrical components of the head unit that operate at lower voltages, such as at or below 24 volts.
H02K 11/20 - Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
H02K 11/33 - Drive circuits, e.g. power electronics
An apparatus controls the operation of multiple barriers at a common location. The apparatus incudes a controller that determines which particular barrier operator among a group of several barrier operators should execute functionality based on certain operating conditions (e.g., location, speed, direction, orientation, etc.) relative to a controller or another component of the apparatus. In response to a user operating an interface in a manner intended to effect a barrier operator function, the apparatus causes the particular barrier operator to execute the function without affecting the other barrier operators among the group.
G07C 9/00 - Individual registration on entry or exit
H04H 40/00 - Arrangements specially adapted for receiving broadcast information
G05B 19/418 - Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control (DNC), flexible manufacturing systems (FMS), integrated manufacturing systems (IMS), computer integrated manufacturing (CIM)
A wireless obstacle detection system includes a wireless obstacle sensor and a communication module designed to provide a retrofit solution for easily adding obstacle detection capabilities to a previously installed barrier operator system. To facilitate ease of installation, the communication module can communicate with a large variety of barrier operators including using at least two different protocols for communication with obstacle detectors. Such communication may be wireless or wired, depending on the barrier operator and communication protocol implemented by a particular previously installed barrier operator. Once configured to be able to communicate with a previously installed barrier operator, the communication module receives communications from the wireless obstacle detector about the presence or absence of an obstacle at or near the barrier and transmits a corresponding communication to the barrier operator using the correct protocol.
Configuration of a movable barrier operator is facilitated through communication with a module configured to substantially permanently affix to a barrier. The module contains information regarding the barrier in a manner to be accessible and transferable to a movable barrier operator configured to move the barrier. The movable barrier operator receives the information and automatically adjusts and sets barrier movement parameters for the movable barrier operator based on the information.
A security system notifies a user of a security event when a movable barrier operator light turns on. The security system includes a camera in communication with control circuitry and a communication module. The control circuitry is configured to control operation of the camera. The communication module communicates with a light status detector that determines the status of an operator light associated with a movable barrier operator. When the operator light turns on, the light status detector sends a signal to the communication module, effecting the control circuitry to operate the camera to capture security data. The communication module then transmits the captured security data over a network to be accessible by a mobile device.
A barrier operator that controls operation of a camera includes a controller, a communication module, and control circuitry. The controller moves a barrier between open and closed positions. The communication module receives open/close commands from a peripheral device. The control circuitry is in communication with the controller, the communication module, and a camera. The control circuitry of the barrier operator automatically activates the camera to capture at least one visual image in response to receiving an open/close command and/or a determination to move the barrier.
An apparatus for use with an auxiliary device for commanding a movable barrier operator, the apparatus having a first communication interface, a processor device, and a second communication interface. The first communication interface being configured to receive a status change request from the auxiliary device. The processor device runs a movable barrier controller application and is configured to generate a control signal for the movable barrier operator in response to receiving the status change request. The second communication interface is configured to send the control signal to the movable barrier operator through a network.
A location determination device is configured to effect the transmission of a message or command to change the configuration of at least one appliance at or proximate to a premises when the current destination for the location determination device is set to a preprogrammed location corresponding to the premises. Accordingly, unintended configuration changes in appliances are avoided with the knowledge that a user of the location determination device intends to proceed to the preprogrammed location corresponding to the premises.
A system and method for training a learning transceiver to a movable barrier system includes a learning transceiver that is configured for being trained to the movable barrier system. To provide ease of use to consumers, a user is able to train the learning transceiver to the movable barrier system without needing to push a button on a movable barrier operator or use a pretrained transmitter. To this end, a movable barrier operator is configured to transmit a transmission signal to the learning transceiver including a rolling access code, which is used to train the learning transceiver. To maintain the security of the movable barrier system and to restrict unauthorized users from accessing the movable barrier system, the movable barrier operator waits to transmit the transmission signal, including the rolling access code, to the learning transceiver until it has received an indication that a predetermined event occurred.
A system includes a translator device that is configured to receive, using a pre-programmed native mode of operation, a first barrier actuation code transmitted by a transmitter according to a first code format. The translator device then analyzes the first barrier actuation code and verifies that it is a valid code. When a valid code, the translator device saves the information contained in the code, and creates a second barrier actuation code at least in part from information contained in the first actuation code and transmits the second barrier actuation code according to the second code format, which is different from the first code format. A barrier operator is coupled to the translator device and a barrier. The barrier operator has a receiver apparatus and the receiver apparatus receives the second barrier actuation code. The barrier operator determines whether the second barrier actuation code is valid, and when the barrier actuation code is determined to be valid, actuates the barrier.
A wireless system for granting or denying access to protected location or equipment and providing compatability with existing access point devices and control equipment. The system is based on a remote wireless unit positioned at each protected location and interfaced with security hardware at the location, such as a keypad. The remote unit is provided access to the data entered by a user trying to gain access, packaged with an electronic location identification code, and wirelessly transmitted to a central unit. The central unit is interfaced with a central computer and interprets the location identification code. The central computer may then determine whether or not to grant access based on the data entered at the remote location and the location identification provided by the remote unit. The central unit then transmits the determination back to the remote location along with the identification code. The remote unit provides the determination to the security hardware if the location code is applicable.
Remote control signaling may be conveyed using a spread spectrum link and/or a non-spread spectrum link. Enabling link interfaces (such as corresponding transmitters, receivers, or transceivers) to support this flexibility are provided in a shared housing and couple as appropriate to a remote control signal platform. A corresponding apparatus may comprise a housing having disposed therein a first radio frequency transmitter such as a spread spectrum transmitter and a second radio frequency transmitter such as a non-spread spectrum transmitter. This housing can further contain a remote control signal controller that operably couples to at least one of the first and second radio frequency transmitters. As another example, a corresponding apparatus may comprise a housing having disposed therein a first radio frequency receiver comprising a spread spectrum receiver and a second radio frequency receiver comprising a non-spread spectrum receiver.
Remote control signaling may be conveyed using a spread spectrum link and/or a non-spread spectrum link. Enabling link interfaces (such as corresponding transmitters, receivers, or transceivers) to support this flexibility are provided in a shared housing and couple as appropriate to a remote control signal platform. A corresponding apparatus may comprise a housing having disposed therein a first radio frequency transmitter such as a , spread spectrum transmitter and a second radio frequency transmitter such as a non-spread spectrum transmitter. This housing can further contain a remote control signal controller that operably couples to at least one of the first and second radio frequency transmitters. As another example, a corresponding apparatus may comprise a housing having disposed therein a first radio frequency receiver comprising a spread spectrum receiver and a second radio frequency receiver comprising a non-spread spectrum receiver.
A moveable barrier operator that is used as a repeater includes a receiver device having an input, a transmitter device having an output, an apparatus responsive to predetermined signals received by the receiver for controlling the position of a barrier; and a controller. The controller is coupled to the receiver device and the transmitter device and controller is programmed to receive a signal from a signaling actuation device at the input of the receiver device. The controller is programmed to responsively re-transmit the signal to at least one other moveable barrier operator from the output of the transmitter device when indicated by the signal.
A moveable barrier operator is operated in response to a code transmitted from a code transmitter. A learning entering mode is entered at a moveable barrier operator. One of a plurality of functions is selected to be performed at the moveable barrier operator. A transmitter is actuated and a code is received from the transmitter at the operator. A data structure is formed that associates the received code with the selected one of the plurality of functions.
An access control mechanism such as a movable barrier operator (70) has a first time window unit (72) that is responsive to one or more triggers (71) (such as a delayed-closure button). An event detector (73) then monitors for one or more events of interest during a corresponding first time window. For example, the event detector can monitor for evidence that a vehicle is moving towards a garage exit or has effected an exit from the garage. A second time window unit (74) responsive at least to the event detector and optionally as well to the first time window unit then responds with a second time window. Upon conclusion of the second time window, a movable barrier closer (75) initiates movement of the corresponding movable barrier towards a closed position (or other position of interest).