A system including a device operable to intercept a PMS request from the PMS to the encoder to obtain card data from the encoder, then send the card data to a credential service to provision a mobile phone with a virtual key. A method of provisioning credentials for a mobile device, the method including generating a request from a Property Management Systems (PMS); sending the request to an encoder through a device; determining if the request is for a virtual card at the device; and using an encoder 0 feature to check-in a guest from the encoder in response to a request for a virtual card.

A method for managing a plurality of access control devices is provided. The method includes at a backend server, receiving a request to schedule a first task of the at least a subset of tasks. The backend server identifies one or more access control devices that a non-occupant account is to be granted credentials in order to complete the task. The backend server then provisions credentials for the one or more access control devices associated with the first task to the non-occupant account selected to complete the task.

A method for managing a plurality of access control devices is provided. The method includes at a backend server, receiving a request to schedule a first task of the at least a subset of tasks. The backend server identifies one or more access control devices that a non-occupant account is to be granted credentials in order to complete the task. The backend server then provisions credentials for the one or more access control devices associated with the first task to the non-occupant account selected to complete the task.

Vaporization devices having portions to enable signal transmission therethrough. A vaporization device includes a body having a first end, a second end, and forming an internal cavity. At least a portion of the internal cavity forming a cartridge receptacle. The vaporization device includes a battery disposed within the internal cavity and a processor operatively coupled to the battery and disposed within the body. The processor is arranged to respond to a signal to switch the vaporization device between a first operational mode and a second operational mode. The vaporization device also includes a portion of the body arranged to permit transmission of the signal through the portion of the body from a location external to the body, thereby permitting the processor to switch the vaporization device between the first and second operational modes in response to the receipt of the signal.

Vaporization devices having portions to enable signal transmission therethrough. A vaporization device includes a body having a first end, a second end, and forming an internal cavity. At least a portion of the internal cavity forming a cartridge receptacle. The vaporization device includes a battery disposed within the internal cavity and a processor operatively coupled to the battery and disposed within the body. The processor is arranged to respond to a signal to switch the vaporization device between a first operational mode and a second operational mode. The vaporization device also includes a portion of the body arranged to permit transmission of the signal through the portion of the body from a location external to the body, thereby permitting the processor to switch the vaporization device between the first and second operational modes in response to the receipt of the signal.

An entry/exit detection locking device includes a knob axle of a lock and an engaging and holding unit and a retention unit. The knob axle includes upper and lower rotary axles each formed with a notch. The engaging and holding unit is arranged at one side of the knob axle. The retention unit is arranged below the knob axle. The retention unit is connected through a control circuit to a card reader at an outdoor side. Through adjustment, the engaging and holding unit is set in engagement with the notch of the upper rotary axle or the notch of the lower rotary axle to achieve a locked state for exit or entry. Rotating the knob axle for entry or exit triggers the retention unit to make a record of the exit or entry. The engaging and holding unit is connected to the card reader to enable unlocking through card swiping.

An entry/exit detection locking device includes a knob axle of a lock and an engaging and holding unit and a retention unit. The knob axle includes upper and lower rotary axles each formed with a notch. The engaging and holding unit is arranged at one side of the knob axle. The retention unit is arranged below the knob axle. The retention unit is connected through a control circuit to a card reader at an outdoor side. Through adjustment, the engaging and holding unit is set in engagement with the notch of the upper rotary axle or the notch of the lower rotary axle to achieve a locked state for exit or entry. Rotating the knob axle for entry or exit triggers the retention unit to make a record of the exit or entry. The engaging and holding unit is connected to the card reader to enable unlocking through card swiping.

A personal area network that includes a wearable electronic device, a system and methods of using the personal area network that includes a wearable electronic device. The wearable electronic device can act as an aggregator of the data that is being acquired by the one or more sensors and from other devices that are within wireless signal range of the personal area network in order to send some or all of the data over a wireless low power wide area network to remote locations within a larger network for subsequent processing, user notification, analysis of location-determination, contact tracing or the like. Data may flow in a bidirectional manner between the wearable electronic device and at least some of the other devices within the personal area network. In one form, the aggregated data may be used to control access to a hazard-prone environment in order to reduce the likelihood of exposure of a service technician to unsafe conditions within such environment. In one form, a communication network formed by the wearable electronic device is used with the hazard-prone environment in order to control access, while in another to control a lockout/tagout procedure.

A personal area network that includes a wearable electronic device, a system and methods of using the personal area network that includes a wearable electronic device. The wearable electronic device can act as an aggregator of the data that is being acquired by the one or more sensors and from other devices that are within wireless signal range of the personal area network in order to send some or all of the data over a wireless low power wide area network to remote locations within a larger network for subsequent processing, user notification, analysis of location-determination, contact tracing or the like. Data may flow in a bidirectional manner between the wearable electronic device and at least some of the other devices within the personal area network. In one form, the aggregated data may be used to control access to a hazard-prone environment in order to reduce the likelihood of exposure of a service technician to unsafe conditions within such environment. In one form, a communication network formed by the wearable electronic device is used with the hazard-prone environment in order to control access, while in another to control a lockout/tagout procedure.

A power distribution equipment personnel safety system includes a vicinity sensor and a power distribution equipment sensor. An outer envelope having a door or cover to an interior of the power distribution equipment is monitored by a vicinity sensor data and a processing unit determines a position of a person in the area outside of the door/cover using vicinity sensor data. When the outer envelope is disturbed where one or more doors or one or more covers are open or not correctly closed or one or more covers are removed, the processing unit determines a personnel safety state and at least one action comprising utilization of the personnel safety state.