Abstract: Disclosed are systems and methods for performing entry access over two or more networks. The two or more networks are leveraged to accelerate the entry access and provide redundancy. Performance over each of the two or more networks is tracked in order to allow a mobile device to exchange entry access messaging over the particular network providing fastest start-to-unlock time. The mobile device can alternatively exchange the entry access messaging simultaneously over the two or more networks to create a race condition whereby the fastest start-to-unlock time is obtained without monitoring network performance. Performing the entry access messaging exchange over the two or more networks also ensures reliability in the event a particular network is down or congested, an authorization device on a particular network is down or overloaded, a radio of a mobile device communicating over a particular network is disabled or slow performing.

Abstract: The solution is directed to access control systems and verifying proximity of a user to an access point that the user is wirelessly requesting access to. The proximity verification is based on placing proximity hubs adjacent to the different access points. Each proximity hub advertises a different unique identifier that changes periodically over a short-range wireless network and can be detected with a mobile device if the mobile device is physically within a short distance from the proximity hub. The unique identifier changes based on a rolling code. A user is permitted access to a restricted access point in response to the mobile device sending over a different long-range wireless network, the unique identifier advertised from a proximity hub adjacent to a desired access point and user access credentials authenticating access privileges of the user to the desired access point.

Abstract: Disclosed are systems and methods for performing entry access over two or more networks. The two or more networks are leveraged to accelerate the entry access and provide redundancy. Performance over each of the two or more networks is tracked in order to allow a mobile device to exchange entry access messaging over the particular network providing fastest start-to-unlock time. The mobile device can alternatively exchange the entry access messaging simultaneously over the two or more networks to create a race condition whereby the fastest start-to-unlock time is obtained without monitoring network performance. Performing the entry access messaging exchange over the two or more networks also ensures reliability in the event a particular network is down or congested, an authorization device on a particular network is down or overloaded, a radio of a mobile device communicating over a particular network is disabled or slow performing.

Abstract: One or more beaconing devices transmit synchronized changing beacons. The changing beacons trigger execution of an application that is installed but closed or not running on a mobile device, that is in wireless beaconing range of a beaconing device, and that has registered the changing beacons with the mobile device operating system (“OS”) to trigger execution of the application upon receipt of the changing beacons. The changing beacons also keep the executing application running by resetting OS policies for closing the application when it is running with the mobile device in a locked or standby state. The application may perform different procedures and different times with the beaconing device or other devices including authorizing access to a secured resource when the mobile device is far away from the beaconing device, and confirming intent to access the secured resource when the mobile device is close to the beaconing device.

Abstract: Secure handsfree two-stage access control is provided via a first stage that is performed when a mobile device is within a first distance from an access control reader, and a second stage that is performed when the mobile device is within a second distance from the reader, wherein the second distance is less than the first distance. Performing the first stage includes establishing a secure connection between the mobile device and the reader, and authorizing access for the mobile device to a secured resource. Performing the second stage includes providing access to the secured resource when the mobile device has been authorized to access the secured resource during the first stage, and the mobile device enters within the second distance from the reader. The second stage may be triggered in response to the reader detecting a user gesture or action.

Abstract: Systems and methods for performing decoupled authorization, whereby authorizing access permissions of a user to a resource is performed separate and independent from authorizing intent of the user to access the resource. Once both authorizations are successfully completed within a specified timeout interval, the access state of the resource is changed, thereby granting the user access to the resource. The decoupled authorizations are independently performed over different networks, in response to different triggers, or by leveraging different hardware. Access to the resource can therefore be provided prior to the user arriving before the resource, with little to no action by the user, and without comprising security as the resources will remain restricted or locked if the either of the user's intent or access permissions cannot be verified.

Abstract: The solution is directed to access control systems and verifying proximity of a user to an access point that the user is wirelessly requesting access to. The proximity verification is based on placing proximity hubs adjacent to the different access points. Each proximity hub advertises a different unique identifier that changes periodically over a short-range wireless network and can be detected with a mobile device if the mobile device is physically within a short distance from the proximity hub. The unique identifier changes based on a rolling code. A user is permitted access to a restricted access point in response to the mobile device sending over a different long-range wireless network, the unique identifier advertised from a proximity hub adjacent to a desired access point and user access credentials authenticating access privileges of the user to the desired access point.

Abstract: Disclosed are systems and methods for performing entry access over two or more networks. The two or more networks are leveraged to accelerate the entry access and provide redundancy. Performance over each of the two or more networks is tracked in order to allow a mobile device to exchange entry access messaging over the particular network providing fastest start-to-unlock time. The mobile device can alternatively exchange the entry access messaging simultaneously over the two or more networks to create a race condition whereby the fastest start-to-unlock time is obtained without monitoring network performance. Performing the entry access messaging exchange over the two or more networks also ensures reliability in the event a particular network is down or congested, an authorization device on a particular network is down or overloaded, a radio of a mobile device communicating over a particular network is disabled or slow performing.

Abstract: Provided is an access control electro-permanent magnetic lock for locking and unlocking physical barriers with electromagnetism, but without a continual power source. The lock comprises permanent magnets juxtaposed with electro-permanent magnets. The polarity of the permanent magnets is fixed and aligned. The polarity of the electro-permanent magnets can be switched by introducing a pulse of electric current for a fraction of a second at low voltage to the electro-permanent magnets. A strong magnetic field generating a locking or holding force is produced when the polarity of the electro-permanent magnets aligns with or is in the same direction as the polarity of the permanent magnets. The magnetic field is canceled such that there is no locking or holding force when the polarity of the electro-permanent magnets is opposite to the polarity of the permanent magnets. The lock can further provide fail-secure or fail-safe protections in the event of power loss.

Abstract: Disclosed are systems and methods for performing entry access over two or more networks. The two or more networks are leveraged to accelerate the entry access and provide redundancy. Performance over each of the two or more networks is tracked in order to allow a mobile device to exchange entry access messaging over the particular network providing fastest start-to-unlock time. The mobile device can alternatively exchange the entry access messaging simultaneously over the two or more networks to create a race condition whereby the fastest start-to-unlock time is obtained without monitoring network performance. Performing the entry access messaging exchange over the two or more networks also ensures reliability in the event a particular network is down or congested, an authorization device on a particular network is down or overloaded, a radio of a mobile device communicating over a particular network is disabled or slow performing.