Systems, apparatuses, methods, and software for monitoring compliance of sanitizees (e.g., health care workers, food service workers, sanitization/janitorial workers etc.) with sanitization protocols to be followed for encounters with sanitization-protocol targets (e.g., patients, food-preparation a
Systems, apparatuses, methods, and software for monitoring compliance of sanitizees (e.g., health care workers, food service workers, sanitization/janitorial workers etc.) with sanitization protocols to be followed for encounters with sanitization-protocol targets (e.g., patients, food-preparation areas, health care facilities/appurtenances, restrooms, etc.). In one example, a system includes sanitization verification systems located close to the targets and mobile node devices issued to the sanitizees. Each verification system can be configured to test the efficacy of sanitization procedures performed by the sanitizees prior to encountering a target, to provide authorizations, via the node devices, to the sanitizees to proceed with target encounters, and to open monitoring sessions during which the node devices record information concerning interactions with the targets. The node devices are configured to annunciate sanitization statuses of the sanitizees throughout a work period as the sanitizees continually interact with verification stations and encounter targets.
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1. An identification device for identifying a patient in a medical setting, comprising: a plurality of tags, each of the tags being configured to produce a wireless identification signal in response to an interrogation signal, wherein the identification signal can be used to identify the patient; an
1. An identification device for identifying a patient in a medical setting, comprising: a plurality of tags, each of the tags being configured to produce a wireless identification signal in response to an interrogation signal, wherein the identification signal can be used to identify the patient; anda support structure designed and configured to locate the plurality of tags proximate the patient, wherein each of the plurality of tags are supported by the support structure;wherein: the interrogation signal is generated by a standoff reading device having a plurality of read-range powers and configured to change among the plurality of read range power levels based on the standoff reading device determining how many of the plurality of tags the standoff reading device identifies as being linked with one another; andeach tag includes: a tag identifier that is unique to the patient, the tag identifier generating the identification signal in response to the interrogation signal, wherein the tag identifiers on the plurality of tags are identical to one another; andan appended linking identifier appended to the tag identifier, the appended linking identifier of each tag differing from the appended linking identifier on each other of the plurality of tags and being selected and configured in conjunction with the standoff reading device to 1) allow the standoff reading device to link all of the plurality of tags with one another to the exclusion of any other tags within reading range of the standoff reading device and 2) allow the standoff reading device to determine how many of the plurality of tags the standoff reading device is recognizing during use so that the standoff reading device can determine when to change among the plurality of read-range powers. 2. The identification device according to claim 1, wherein each of the plurality of tags comprises a radio-frequency identification (RFID) tag. 3. The identification device according to claim 1, wherein the patient has an appendage, and the support structure comprises a band designed and configured to be secured around the appendage. 4. The identification device according to claim 3, wherein the patient is a human, the appendage is an arm or a leg, and the identification signal comprises information assigned by a health care facility. 5. The identification device according to claim 3, wherein the support structure further includes a plurality of standoff supports, each of the standoff supports being designed and configured to locate one of the plurality of tags in spaced relation to the band when the identification device is properly engaged with the appendage, and each of the standoff supports comprises a body having first and second ends spaced from one another, wherein the body is spaced from the band at least between the first and second ends. 6. The identification device according to claim 5, wherein only the first end of each of the standoff supports is attached to the band. 7. The identification device according to claim 6, wherein the first end of a first standoff support and the first end of a second standoff support are separated by a first distance along the length of the band, and the first end of the second standoff support and the first end of a third standoff support are also separated by the first distance along the length of the band. 8. The identification device according to claim 6, wherein the standoff supports locate the plurality of tags at regular intervals along the length of the band. 9. The identification device according to claim 6, wherein the second end of each of the standoff supports is a free end. 10. The identification device according to claim 5, wherein only the first and second ends of the standoff supports are attached to the band. 11. The identification device according to claim 10, wherein the band has a circumference and each of the standoff supports forms an arched shape in a plane containing the circumference. 12. The identification device according to claim 11, wherein each of the second ends of the standoff supports is releasably attachable to the band at a distance along the band from the corresponding first end, and each of the standoff supports is flexible and has a length longer than the distance so that the standoff support forms the arched shape when the second end is attached to the band. 13. The identification device according to claim 5, wherein at least one of the standoff supports locates at least a portion of one of the plurality of tags such that the portion is spaced from the appendage by a first distance, at least one portion of the band is located at a second distance from the appendage, and the first distance is larger than the second distance when the identification device is properly engaged with the appendage. 14. The identification device according to claim 13, wherein the first distance can be reduced by attaching a free end of the at least one of the standoff supports to the band. 15. The identification device according to claim 1, wherein the appended linking identifier comprises a digitally encoded linking code. 16. The identification device according to claim 1, wherein the appended linking identifier comprises a linking sequence, and the linking sequence differs among the plurality of tags in a manner known to the standoff reading device. 17. The identification device according to claim 1, further including a closure mechanism for securing the device to the patient. 18. The identification device according to claim 17, wherein the closure mechanism secures a first end of the support structure to a second end of the support structure. 19. The identification device according to claim 1, wherein the plurality of tags includes at least three tags. 20. The identification device according to claim 19, wherein each of the at least three tags are encoded with the identical tag identifier and a tag-specific linking sequence, wherein the tag-specific linking sequence of a first tag of the at least three tags differs from the linking sequence of a second tag of the at least three tags and a third tag of the at least three tags, and the linking sequence of the second tag differs from the linking sequence of the first tag and the third tag.
Johnson, Christopher; Akbay, Kunter; Day, Andrew; Doretto, GianFranco; Tu, Peter; Dulgeroglu, Onur; Peterson, Marcia; Toledano, David, System and method to manage delivery of healthcare to a patient.
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