Authorization of a user device is suspended based on determining, for a first predetermined time, a distance between the user device and a vehicle is greater than a threshold distance. Then a user input specifying a vehicle parameter is requested. Upon receiving the user input, the user input is validated based on the user input matching a stored vehicle parameter. The user device is deauthorized based on a) failing to receive a valid user input within a second predetermined time, or b) receiving a number of invalid user inputs equal to a threshold number.

Authorization of a user device is suspended based on determining, for a first predetermined time, a distance between the user device and a vehicle is greater than a threshold distance. Then a user input specifying a vehicle parameter is requested. Upon receiving the user input, the user input is validated based on the user input matching a stored vehicle parameter. The user device is deauthorized based on a) failing to receive a valid user input within a second predetermined time, or b) receiving a number of invalid user inputs equal to a threshold number.

Aspects of the invention are directed towards method and system for providing secure access to a user inside the premises. One or more embodiments of the invention describe receiving a user defined pre-access condition for a predetermined time by an input interface coupled to an intrusion panel. The pre-access condition for a user are authenticated and an authentication result is notified to a cloud server. The authentication is confirmed based on the pre-access condition together with geo-location information of the user within a defined geo-fencing boundary thereby satisfying dual authentication and transmitting the authentication result to the cloud server. A preset emergency notification and location tracking information are triggered on breach of the pre-access condition and/or geo-location information to a predefined user.

An access management and reporting system includes a keysafe that is located outside of a building and a communication system that is located within the building. The communication system is configured to perform, over a short-range wireless communication protocol, two-way communication with a communication module of the keysafe. The system also includes a server that is located remote from the building and the keysafe. The server is configured to perform, over a long-range communication protocol, two-way communication with the communication system located within the building, is configured to manage access to the keysafe, and is configured to handle reporting related to access of the keysafe.

What is provided is a smart container cap device that can be unlocked remotely by a second device such as a smartphone or computer. The smart cap is sized and shaped to adhere to a standardized container lid sizing convention, such that the smart cap may be swapped for and replace a conventional container cap. The cap may also include sensors for detecting poor storage conditions (such as moisture or humidity) or tampering, or for a secondary means of granting access such as a biometric scan.

Improvements in an electronically operated lockbox mailbox assembly is disclosed. The assembly provides a customizable lockbox assembly with a smart lock. The enclosure can be configured with heating, cooling and humidity functions so the internal contents remains at an optimal temperature for storage until the unit is unlocked. The assembly can be linked with other home security devices. The smart lock operated with an application for tracking, opening and security of the assembly. The assembly may take the form of a box, locker, or similar shape that can be either free-standing or “hard installed” as part of a new commercial or residential build or retrofitted to an existing commercial or residential build that is powered via hardwire, plug or battery.

A method and system for providing access to a location secured by an electronically activated locking mechanism, the method comprising: detecting a geographical position of a mobile device. Determining that the detected geographical position of the mobile device is proximate to the location secured by the electronically activated locking mechanism. Transmitting a signal causing the electronically activated locking mechanism to unlock.

An embodiment of an electronic access control system includes an electronic key, an electronic lock, and an access control administration program. The electronic key can include program code for switching between a lock mode and a computer mode. In some embodiments, the lock mode and computer mode allow for simplified administration and operation of the access control system. Some embodiments of the electronic key include a rechargeable battery. In some embodiments, the access control system includes a hybrid power supply system having a rechargeable battery and a generator. In some embodiments, the electronic lock includes a piezoelectric latch. In some embodiments, the electronic key is configured to act as a storage device for a computer system. Some embodiments provide an electronic access control system with a streamlined user interface.

Systems and methods for operating a Land Mobile Radio (“LMR”). The methods comprise: performing Near Field Communication (“NFC”) or Radio Frequency Identification (“RFID”) operations by the LMR and an external device; and sending from the LMR or receiving at the LMR information associated with the NFC or RFID operations via the packet switched LMR infrastructure. The information associated with the NFC or RFID operations includes, but is not limited to, check-in information for an incident event, check-out information for an incident, sensor data, authentication keys, verification keys, access codes, and LMR configuration (e.g. personality) information, LMR software code, and/or LMR firmware.

Systems and methods for location-aware scanning of an IoT beacon by a mobile device, and the authentication of the mobile device, are disclosed herein. The system detects when the mobile device is within a geofenced region associated with the IoT beacon and enables the scanning by the mobile device for signals from the beacon. Using the beacon signals received by the mobile device, the system detects when the mobile device and IoT beacon are sufficiently near one another. Once the mobile device and IoT beacon are sufficiently near each other, the system authenticates control of the mobile device over the IoT beacon by verifying an authentication key transmitted to a server.