A Bluetooth Low-Energy (BLE) passive vehicle access control system integrated into a vehicle and an external device to defend the system against relay attacks is provided. The system includes at least one of a motion detector, a microprocessor, or a barometric pressure sensor. The motion detector is configured to detect and distinguish various types of motion and vibration. The motion detector is further configured to distinguish between a true motion event and a false motion event. The microprocessor comprises a set of computer executable instructions including a TX power profiling is capable of modulating the transmitted (TX) power level to create at a receiving end of a communication having link in the vehicle a RX power level (RSS) profile that serves as an authentication. The barometric pressure sensor is configured to measure barometric pressure which ultimately translates the measured barometric pressure into altitude value and distinguish the altitude value of the vehicle and of the external device is either matched or different.

Methods, devices, and systems are provided for performing and/or limiting features based on a determined motion associated with a portable device. When the portable device is determined to be in motion, a feature control application running on the portable device prevents at least one radio frequency identification (RFID) component of the device from communicating with RFID reading devices. When the portable device is still, or not in motion, the feature control application running on the portable device prevents the at least one RFID component of the device from communicating with RFIDreading devices. Among other things, this feature control of a portable device can prevent theft of data in an access control system, credit payment system, and/or other data transfer system.

An intelligent door lock system coupled to a door at a dwelling. a door status device is at the dwelling. The door status device is coupled to a drive shaft of a lock device to assist in locking and unlocking a lock of a lock device at the door. The lock device is coupled to the door status device and includes a bolt. An engine, an energy source and a memory are coupled together. A camera is coupled to or part of the intelligent door lock system. The camera is configured to record in response to door lock status.

The present disclosure relates to a history management system of an electronic locking device. According to the exemplary embodiment of the present disclosure, since the log information of an electronic key is transmitted from an electronic locking device to an external terminal through the electronic key or directly transmitted to the external terminal so that the manager can check the log information through the external terminal, and as a result, the manager can efficiently perform the history management of the electronic locking device and improving the security management efficiency of a used place of the electronic locking device.

A communication system for facilitating control over a function of a vehicle (102) comprises a base station (104) positioned in the vehicle (102) and a mobile communication unit (122). The base station (104) comprises a first transmitter for transmitting a signal to the mobile communication unit (122) and a first receiver for receiving a signal from the mobile communication unit (122). The base station (104) is further configured to cause the mobile communication unit (122) to operate in accordance with a limited-response duty cycle.

An intelligent door lock system is coupled to a door at a dwelling. A first sensor is at the dwelling. The first sensor is coupled to a drive shaft of a lock device to assist in locking and unlocking a lock of a lock device at a door. The lock device is coupled to the first sensor and the lock device includes a bolt. An engine, an energy source and a memory are coupled together. A magnetic sensor provides a reading or measurement used to determine a door open or closed status.

An exemplary lockset is configured for installation in a standard door preparation, and includes an exterior assembly, an interior assembly, and a center assembly connecting the exterior and interior assemblies. The exterior assembly includes an exterior escutcheon which houses a credential reader assembly including a multi-tech credential reader. The interior assembly includes an interior escutcheon which houses a control system. The center assembly includes a chassis, an outer surface of which may define a channel. The credential reader assembly is in communication with the control assembly via a wire harness, a portion of which may pass through the channel.

The use of gestures on a user device to interact with and obtain functionality from remote communication hub devices is disclosed. A user device includes an accelerometer or other motion detection device and a wireless communications capability. The device is small enough to be placed conveniently about the person and communicates with a communication hub device to perform context-dependent actions. A user makes a gestural command to the device. The device interprets the gesture and undertakes activity. The gestural sensing device may be a motion switch, a multi-axis accelerometer, a video camera, a variable capacitance device, a magnetic field sensor, an electrical field sensor etc. When combined with business logic running on a remote computer system, the device can be used to implement a range of applications and services.

An exemplary lockset is configured for installation in a standard door preparation, and includes an exterior assembly, an interior assembly, and a center assembly connecting the exterior and interior assemblies. The exterior assembly includes an exterior escutcheon which houses a credential reader assembly including a multi-tech credential reader. The interior assembly includes an interior escutcheon which houses a control system. The center assembly includes a chassis, an outer surface of which may define a channel. The credential reader assembly is in communication with the control assembly via a wire harness, a portion of which may pass through the channel.

The use of gestures on a user device to interact with and obtain functionality from remote communication hub devices is disclosed. A user device includes an accelerometer or other motion detection device and a wireless communications capability. The device is small enough to be placed conveniently about the person and communicates with a communication hub device to perform context-dependent actions. A user makes a gestural command to the device. The device interprets the gesture and undertakes activity. The gestural sensing device may be a motion switch, a multi-axis accelerometer, a video camera, a variable capacitance device, a magnetic field sensor, an electrical field sensor etc. When combined with business logic running on a remote computer system, the device can be used to implement a range of applications and services.