Abstract: The technology relates to portable personal monitor device and associated methods. In particular, the technology provides for improving the capability of personal monitor device systems by enabling functions such as two-way communications from the personal monitor; associating possible threats with one or more locations; and dynamically determining safe locations and potential evacuation routes. Also described herein are monitors which improve the detection of possible threats or risks by allowing a base unit to be used with various replacement sensor modules.

Abstract: The technology relates to portable personal monitor device and associated methods. In particular, the technology provides for improving the capability of personal monitor device systems by enabling functions such as two-way communications from the personal monitor; associating possible threats with one or more locations; and dynamically determining safe locations and potential evacuation routes. Also described herein are monitors which improve the detection of possible threats or risks by allowing a base unit to be used with various replacement sensor modules.

Abstract: The technology relates to portable personal monitor device and associated methods. In particular, the technology provides for improving the capability of personal monitor device systems by enabling functions such as two-way communications from the personal monitor; associating possible threats with one or more locations; and dynamically determining safe locations and potential evacuation routes. Also described herein are monitors which improve the detection of possible threats or risks by allowing a base unit to be used with various replacement sensor modules.

Abstract: Embodiments relate generally to systems and methods for completing processes on a gas detector device using near-field communication between the gas detector device and an NFC tag. The NFC tag may communicate instructions or information to the gas detector device. The NFC tag may be located on or near a gas testing system, comprising gas deliver tube(s), gas tank(s), as well as other elements. In some embodiments, the gas detector device may comprise a single button to simplify interactions with the user.

Abstract: The technology relates to portable personal monitor device and associated methods. In particular, the technology provides for improving the capability of personal monitor device systems by enabling functions such as two-way communications from the personal monitor; associating possible threats with one or more locations; and dynamically determining safe locations and potential evacuation routes. Also described herein are monitors which improve the detection of possible threats or risks by allowing a base unit to be used with various replacement sensor modules.

Abstract: The technology relates to portable personal monitor device and associated methods. In particular, the technology provides for improving the capability of personal monitor device systems by enabling functions such as two-way communications from the personal monitor; associating possible threats with one or more locations; and dynamically determining safe locations and potential evacuation routes. Also described herein are monitors which improve the detection of possible threats or risks by allowing a base unit to be used with various replacement sensor modules.

Abstract: Embodiments relate generally to systems and methods for completing processes on a gas detector device using near-field communication between the gas detector device and an NFC tag. The NFC tag may communicate instructions or information to the gas detector device. The NFC tag may be located on or near a gas testing system, comprising gas deliver tube(s), gas tank(s), as well as other elements. In some embodiments, the gas detector device may comprise a single button to simplify interactions with the user.

Abstract: Embodiments relate generally to systems and methods for indicating when a gas detector is out of compliance. A Bluetooth Low Energy (BLE) enabled wireless gas-detector may allow for an advertisement packet to be transmitted from the gas detector. This advertisement packet may contain information about the gas detector to allow remote auditing from any BLE enabled remote listening device. This auditor device may be in the form of a mobile device, such as a cell phone or tablet, a fixed location auditor device, or any other BLE enabled device.

Abstract: Safety radio devices are described herein. One method of constructing a safety radio device includes mounting a radio module on a first layer of a circuit board, fabricating an antenna on a second layer of the circuit board, and constructing a safety radio device by connecting the radio module to the antenna through an aperture formed in the second layer of the circuit board.

Abstract: Embodiments relate generally to methods and systems for user association with a gas detector using passive NFC tags. Applicants propose a gas detector with a near-field communication (NFC) reader built into the gas detector, thereby allowing the user to scan their employee identification (ID) badge or a specialized individualized NFC tag. In some embodiments, an NFC tag may be attached to an employee ID badge. The gas detector may communicate via NFC with the badge and/or tag, and may recognize the badge and/or tag as associated with a specific user. When the user starts their shift, the gas detector with an NFC reader can scan the tag and associate the user with the detector and store the information in a log for archival purposes. This process can be completed by the user, and does not require connecting the gas detector to a computer to provide the association.

Abstract: Embodiments relate generally to methods and systems for configuring a gas detector using near-field communication (NFC). A gas detector may be equipped with an NFC reader that will allow the gas detector to scan and read NFC tags. Compatible NFC tags may be acquired and programmed with the configuration settings information. The NFC tag may then be attached to a poster with instructions that show where to place the detector in order to confirm their device's configuration. When the detector is placed in the appropriate location near the tag on the poster, the detector may receive information from the NFC tag, implement the configuration settings, and possibly display a confirmation message to the user. The NFC tag may also be attached to a card carried by a monitor for that work area.

Abstract: Embodiments relate generally to methods and systems for user association with a gas detector using passive NFC tags. Applicants propose a gas detector with a near-field communication (NFC) reader built into the gas detector, thereby allowing the user to scan their employee identification (ID) badge or a specialized individualized NFC tag. In some embodiments, an NFC tag may be attached to an employee ID badge. The gas detector may communicate via NFC with the badge and/or tag, and may recognize the badge and/or tag as associated with a specific user. When the user starts their shift, the gas detector with an NFC reader can scan the tag and associate the user with the detector and store the information in a log for archival purposes. This process can be completed by the user, and does not require connecting the gas detector to a computer to provide the association.

Abstract: Embodiments relate generally to methods and systems for configuring a gas detector using near-field communication (NFC). A gas detector may be equipped with an NFC reader that will allow the gas detector to scan and read NFC tags. Compatible NFC tags may be acquired and programmed with the configuration settings information. The NFC tag may then be attached to a poster with instructions that show where to place the detector in order to confirm their device's configuration. When the detector is placed in the appropriate location near the tag on the poster, the detector may receive information from the NFC tag, implement the configuration settings, and possibly display a confirmation message to the user. The NFC tag may also be attached to a card carried by a monitor for that work area.

Abstract: Embodiments relate generally to systems and methods for indicating when a gas detector is out of compliance. A Bluetooth Low Energy (BLE) enabled wireless gas-detector may allow for an advertisement packet to be transmitted from the gas detector. This advertisement packet may contain information about the gas detector to allow remote auditing from any BLE enabled remote listening device. This auditor device may be in the form of a mobile device, such as a cell phone or tablet, a fixed location auditor device, or any other BLE enabled device.

Abstract: A man down indicator includes a gas detector which includes a motion sensor. A separate wearable element also includes a motion sensor. The element is wirelessly coupled to, and paired with, the detector. In responsive to a lack of sensed motion at both detector and the element, a pre-alarm condition is initiated for a predetermined period of time by circuitry carried by one of the detector, or the element. Unless interrupted, when the pre-alarm condition terminates, a man down alarm is generated.

Abstract: A man down indicator includes a gas detector which includes a motion sensor. A separate wearable element also includes a motion sensor. The element is wirelessly coupled to, and paired with, the detector. In responsive to a lack of sensed motion at both detector and the element, a pre-alarm condition is initiated for a predetermined period of time by circuitry carried by one of the detector, or the element. Unless interrupted, when the pre-alarm condition terminates, a man down alarm is generated.

Abstract: Safety radio devices are described herein. One method of constructing a safety radio device includes mounting a radio module on a first layer of a circuit board, fabricating an antenna on a second layer of the circuit board, and constructing a safety radio device by connecting the radio module to the antenna through an aperture formed in the second layer of the circuit board.