Abstract: High-accuracy locating systems and methods are used for determining successful caregiver rounding, monitoring whether housekeepers have properly cleaned patient beds, or determining whether patients have ambulated sufficient distances during recovery. Patient beds having at least two locating tags are used for establishing patient care zones around the patient beds. Locating anchors and equipment tags are moved around a patient room to determine optimum locating anchor placement within the patient room based on signal quality values. A locating tag on a patient bed switches roles to operate as a locating anchor in response to the patient bed becoming stationary. A locating tag has a digital compass which is used to determine a field of good ranging relative to a front of a caregiver wearing the locating tag.

Abstract: High-accuracy locating systems and methods are used for determining successful caregiver rounding, monitoring whether housekeepers have properly cleaned patient beds, or determining whether patients have ambulated sufficient distances during recovery. Patient beds having at least two locating tags are used for establishing patient care zones around the patient beds. Locating anchors and equipment tags are moved around a patient room to determine optimum locating anchor placement within the patient room based on signal quality values. A locating tag on a patient bed switches roles to operate as a locating anchor in response to the patient bed becoming stationary. A locating tag has a digital compass which is used to determine a field of good ranging relative to a front of a caregiver wearing the locating tag.

Abstract: A charting system is provided for use in a healthcare facility having a network. The charting system includes a microphone to receive voice inputs from a caregiver. A vital sign monitor obtains a vital sign from a patient and displays it. The system includes a communication device having a voice-to-text module that includes a processor coupled to the microphone. The processor operates a voice-to-text algorithm that converts the vital sign into text in response to the caregiver dictating the vital sign into the microphone. The processor initiates transmission of the vital sign to an EMR computer via the network after conversion of the at least one vital sign to text.

Abstract: A charting system is provided for use in a healthcare facility having a network. The charting system includes a microphone to receive voice inputs from a caregiver. A vital sign monitor obtains a vital sign from a patient and displays it. The system includes a communication device having a voice-to-text module that includes a processor coupled to the microphone. The processor operates a voice-to-text algorithm that converts the vital sign into text in response to the caregiver dictating the vital sign into the microphone. The processor initiates transmission of the vital sign to an EMR computer via the network after conversion of the at least one vital sign to text.

Abstract: A patient fall detection system includes a computer and multiple transceivers mounted at fixed locations in a healthcare facility. The transceivers are electronically coupled to the computer. A patient identification tag is worn by a patient and includes a tag transceiver. The high-accuracy locating system monitors a location of the patient ID tag via signals from the tag transceiver to determine whether a patient has entered a bathroom. The computer monitors at least one of an elevation of the patient ID tag in the bathroom, an elevation drop of the patient ID tag in the bathroom, or a time that the patient ID tag has been in the bathroom to determine whether the patient has fallen.

Abstract: High-accuracy locating systems and methods are used for determining successful caregiver rounding, monitoring whether housekeepers have properly cleaned patient beds, or determining whether patients have ambulated sufficient distances during recovery. Patient beds having at least two locating tags are used for establishing patient care zones around the patient beds. Locating anchors and equipment tags are moved around a patient room to determine optimum locating anchor placement within the patient room based on signal quality values. A locating tag on a patient bed switches roles to operate as a locating anchor in response to the patient bed becoming stationary. A locating tag has a digital compass which is used to determine a field of good ranging relative to a front of a caregiver wearing the locating tag.

Abstract: A system and method to determine availability of caregivers to respond to nurse calls or other alerts originating in patient rooms is provided. Caregivers are designated as unavailable depending upon room types in which they are located, or depending upon patient types in the rooms in which they are located, or depending upon how long they have been present in certain rooms, or depending upon whether the caregivers have designated themselves as unavailable, or any combination of the foregoing. A system and method to escalate alerts to other caregivers if a primary caregiver is unavailable includes escalating first to a designated secondary caregiver and then to a caregiver who is closest in proximity to the room from which the alert originated if the secondary caregiver is also unavailable.

Abstract: A caregiver badge system includes a caregiver badge configured to be worn by a caregiver and having a cavity defined therein. An identification badge is configured to be positioned within the cavity. The identification badge is removable from the caregiver badge. A transceiver is positioned within the caregiver badge and configured to communicate with a positioning system to identify a location of the caregiver. A battery is positioned within the caregiver badge to power the transceiver.

Abstract: A patient fall detection system includes a computer and multiple transceivers mounted at fixed locations in a healthcare facility. The transceivers are electronically coupled to the computer. A patient identification tag is worn by a patient and includes a tag transceiver. The high-accuracy locating system monitors a location of the patient ID tag via signals from the tag transceiver to determine whether a patient has entered a bathroom. The computer monitors at least one of an elevation of the patient ID tag in the bathroom, an elevation drop of the patient ID tag in the bathroom, or a time that the patient ID tag has been in the bathroom to determine whether the patient has fallen.

Abstract: A system and method to determine availability of caregivers to respond to nurse calls or other alerts originating in patient rooms is provided. Caregivers are designated as unavailable depending upon room types in which they are located, or depending upon patient types in the rooms in which they are located, or depending upon how long they have been present in certain rooms, or depending upon whether the caregivers have designated themselves as unavailable, or any combination of the foregoing. A system and method to escalate alerts to other caregivers if a primary caregiver is unavailable includes escalating first to a designated secondary caregiver and then to a caregiver who is closest in proximity to the room from which the alert originated if the secondary caregiver is also unavailable.

Abstract: A caregiver badge system includes a caregiver badge configured to be worn by a caregiver and having a cavity defined therein. An identification badge is configured to be positioned within the cavity. The identification badge is removable from the caregiver badge. A transceiver is positioned within the caregiver badge and configured to communicate with a positioning system to identify a location of the caregiver. A battery is positioned within the caregiver badge to power the transceiver.

Abstract: A patient fall detection system includes a computer and multiple transceivers mounted at fixed locations in a healthcare facility. The transceivers are electronically coupled to the computer. A patient identification tag is worn by a patient and includes a tag transceiver. The high-accuracy locating system monitors a location of the patient ID tag via signals from the tag transceiver to determine whether a patient has entered a bathroom. The computer monitors at least one of an elevation of the patient ID tag in the bathroom, an elevation drop of the patient ID tag in the bathroom, or a time that the patient ID tag has been in the bathroom to determine whether the patient has fallen.

Abstract: A caregiver shift change system and method for a healthcare facility includes a patient bed in a patient room and a high-accuracy locating system that includes locating tags. A first tag is coupled to a first caregiver and a second tag is coupled to a second caregiver. The high-accuracy locating system further has a number of transceivers within the healthcare facility to receive tag data from the tags. The high-accuracy locating system also includes a computer coupled to the transceivers to receive the tag data and to process the tag data to determine a location of each tag within the healthcare facility. The caregiver shift change system and method also includes a server that determines whether a successful caregiver shift change has occurred based on locations of the first and second tags being, for a predetermined period of time, within a threshold proximity of each other and within a zone defined around the patient support apparatus in the patient room.

Abstract: A charting system is provided for use in a healthcare facility having a network. The charting system includes a microphone to receive voice inputs from a caregiver. A vital sign monitor obtains a vital sign from a patient and displays it. The system includes a communication device having a voice-to-text module that includes a processor coupled to the microphone. The processor operates a voice-to-text algorithm that converts the vital sign into text in response to the caregiver dictating the vital sign into the microphone. The processor initiates transmission of the vital sign to an EMR computer via the network after conversion of the at least one vital sign to text.

Abstract: A patient fall detection system includes a computer and multiple transceivers mounted at fixed locations in a healthcare facility. The transceivers are electronically coupled to the computer. A patient identification tag is worn by a patient and includes a tag transceiver. The high-accuracy locating system monitors a location of the patient ID tag via signals from the tag transceiver to determine whether a patient has entered a bathroom. The computer monitors at least one of an elevation of the patient ID tag in the bathroom, an elevation drop of the patient ID tag in the bathroom, or a time that the patient ID tag has been in the bathroom to determine whether the patient has fallen.

Abstract: A care system includes a mobile communication device, a remote server, and a patient support system in communication with either or both of the mobile communication device and the remote server. The mobile communication device operates as a user interface for the patient support system. The remote server provides computing power for the patient support system for resource intensive computing tasks. A system for use in a healthcare facility includes patient care devices located in a patient room. The system also includes an application server located remotely from the patient room. The application server stores application software associated with each patient care device. The system further includes a universal caregiver interface situated in the patient room and in communication with the application server. The universal caregiver interface receives application software from the application server.

Abstract: According to the present disclosure, a hygiene compliance system includes a handwash sensor, a badge, an occupant sensor, and a remote computer. The sensors and the badge may communicate with the remote computer to provide information regarding hygiene events. The hygiene compliance system determines whether the hygiene events comply with a hygiene operations scheme.

Abstract: According to the present disclosure, a hygiene compliance system includes a handwash sensor, a badge, an occupant sensor, and a remote computer. The sensors and the badge may communicate with the remote computer to provide information regarding hygiene events. The hygiene compliance system determines whether the hygiene events comply with a hygiene operations scheme.

Abstract: According to the present disclosure, a hygiene compliance system includes a handwash sensor, a badge, an occupant sensor, and a remote computer. The sensors and the badge may communicate with the remote computer to provide information regarding hygiene events. The hygiene compliance system determines whether the hygiene events comply with a hygiene operations scheme.

Abstract: Technologies for location-based automated assignment of staff members of a healthcare facility include a plurality of proximity sensing devices communicatively coupled to a computer. The proximity sensing devices are each configured to detect a portable transceiver device carried by and associated with a particular staff member of the healthcare facility, as well as transmit location information to the computer. The computer is configured to receive the location information and determine whether to assign the staff member to a location of the staff member (i.e., the location of the proximity sensing device that detected the portable transceiver device). The computer is further configured to assign the staff member to the location of the staff member, as identified in the location information, based on a determination that the amount of time the staff member is detected in the location exceeds the duration threshold. Other embodiments are described herein.