Abstract: Digital pass verification systems and methods are disclosed herein. An example non-transitory computer readable medium includes instructions that, when executed, cause a processor to at least: verify a flight reservation of a person; check a test record of the person associated with the flight reservation, the test record associated with a diagnostic test for an analyte of interest; and display a first interface when the test record indicates the person tested negative for the analyte of interest and display a second interface when the test record indicates the person tested positive for the analyte of interest.

Abstract: Digital pass verification systems and methods are disclosed herein. One or more servers are to distribute instructions on a network. The instructions, when executed, cause a first device carried by a person to at least: access a result of a diagnostic test performed on the person, the result provided by a second device; generate a machine-readable code in response to the result being negative; and display the machine-readable code on a display of the first device to enable the person to gain access to a location.

Abstract: Digital pass verification systems and methods are disclosed herein. An apparatus disclosed herein includes memory including instructions that, when executed, cause processor circuitry to: access a result of a diagnostic test associated with a test kit identification; associate the result of the diagnostic test with a user identification; and transmit the result of the diagnostic test and the test kit identification to a first device to cause the first device to generate a machine-readable pass on a display of the first device.

Abstract: Digital pass verification systems and methods are disclosed herein. One or more servers are to distribute instructions on a network. The instructions, when executed, cause a first device carried by a person to at least: access a result of a diagnostic test performed on the person, the result provided by a second device; generate a machine-readable code in response to the result being negative; and display the machine-readable code on a display of the first device to enable the person to gain access to a location.

Abstract: Digital pass verification systems and methods are disclosed herein. One or more servers are to distribute instructions on a network. The instructions, when executed, cause a first device carried by a person to at least: access a result of a diagnostic test performed on the person, the result provided by a second device; generate a machine-readable code in response to the result being negative; and display the machine-readable code on a display of the first device to enable the person to gain access to a location.

Abstract: Digital pass verification systems and methods are disclosed herein. One or more servers are to distribute instructions on a network. The instructions, when executed, cause a first device carried by a person to at least: access a result of a diagnostic test performed on the person, the result provided by a second device; generate a machine-readable code in response to the result being negative; and display the machine-readable code on a display of the first device to enable the person to gain access to a location.

Abstract: Digital pass verification systems and methods are disclosed herein. An apparatus disclosed herein includes memory including instructions that, when executed, cause processor circuitry to: access a result of a diagnostic test associated with a test kit identification; associate the result of the diagnostic test with a user identification; and transmit the result of the diagnostic test and the test kit identification to a first device to cause the first device to generate a machine-readable pass on a display of the first device.

Abstract: Digital pass verification systems and methods are disclosed herein. A server is to distribute instructions on a network. The instructions, when executed, are to cause a mobile device carried by a person to at least: access a user identification associated with the person; access a result of a diagnostic test performed on a sample gathered from the person; display the result on a display of the mobile device; generate an interface including the user identification and an indicator, the indicator generated in response to the result being negative and a number of days since the diagnostic test being below a threshold number of days; and display the interface on the display to enable the person to gain entry into a location.

Abstract: Digital pass verification systems and methods are disclosed herein. One or more servers are to distribute instructions on a network. The instructions, when executed, cause a first device carried by a person to at least: access a result of a diagnostic test performed on the person, the result provided by a second device; generate a machine-readable code in response to the result being negative; and display the machine-readable code on a display of the first device to enable the person to gain access to a location.

Abstract: Digital pass verification systems and methods are disclosed herein. An apparatus disclosed herein includes memory including instructions that, when executed, cause processor circuitry to: access a result of a diagnostic test associated with a test kit identification; associate the result of the diagnostic test with a user identification; and transmit the result of the diagnostic test and the test kit identification to a first device to cause the first device to generate a machine-readable pass on a display of the first device.

Abstract: A system and related techniques generate and present a clinical workforce management interface to assign nurses, technicians, therapists and others in a hospital or other clinical setting. According to embodiments, the interface may present components including an aggregate patient population profile which lists individual patients in a unit, as well as the projected workload capacity the care for those patients represents as well as an assignment bar depicting the continuity of provider assignments for that patient over a shift, 24 hour, or other period. The workforce management interface may likewise present a counterpart provider population profile which lists available care providers in a unit, as well as their capacity ratings, skill sets, shifts or other schedule and other data characterizing available clinical stuff.

Abstract: A method in a computing environment for determining the work for one or more patients is provided. The method includes obtaining data for one or more patients directly from the primary clinical information system and utilizing the data to calculate work for the one or more patients. A method in a computing environment for determining the work for a population of patients is provided. The method comprises utilizing data obtained directly from the primary clinical information system to calculate a work score for each patient in a patient population and calculating staffing needs for the population based on the work scores obtained for the patients in the patient population.

Abstract: A system and related techniques automatically generate optimized, best-match or sufficient assignments of care providers, such as physicians, nurses or technicians, to a patient based on clinical evidence, documentation, workload, infectious status and other factors. In embodiments, the patient's chart or other clinical record may be accessed by a rules-based engine configured with rules which relate a patient's clinical status and needs to the qualifications, certifications, capabilities and skills of care providers and select the care provider best qualified to service that patient's clinical requirements. The pool of available care providers may for example be ascertained from personnel systems recording staff schedules and estimated workload, while the qualifications of each provider indicating the categories of patient care and support that provider is qualified to provide may be accessed from a provider data store.