The present invention relates to a system and method for monitoring persons in a facility. More particularly, the invention relates to a system and method for visualizing the location and movement of individuals within the facility.
As concerns for care of patients and residents of facilities such as hospitals, nursing homes, assisted living and community living centers increases, it is becoming more and more important to have a safe and simple method for monitoring the location of each individual in the facility. These types of facilities have a need to know the location and movement of occupants both for safety and health care reasons. Among safety concerns is the need to identity occupants who have wandered into restricted or unsafe areas in or even outside the facility. This need is complicated by the fact that different occupants may often have different access opportunities and restrictions.
In an emergency, such as a fire, there is obviously a vital need to locate all occupants who have not evacuated the facility and remain inside. Such failures to leave occur due to poor hearing, poor mobility, or cognitive impairment in elderly occupants.
On the heath care side, a location system would provide valuable information about a patient, including lack of activity over a period of time. It would also be a benefit to monitor a person's activity over a period of time, as well as identifying which locations in the facility his or her activity occurred. Care also would benefit from knowing the locations of care facility nursing staff. For billing and liability reasons, it would be useful to the facility administrator to know if a nurse or aide indeed was with a patient in a particular location at a particular time. It would also be helpful if physical assets such as, for example, critical equipment like defibrillators were tracked and displayed and thus located by persons attempting to respond to a situation.
Up to now, this information has not been available in a manner which would allow care providers or other facility operators to visualize the location information and quickly understand its meaning.
It would be of great advantage in the art if system and method could be provided that gave a visualization of each person within a facility.
Another advantage would be if a system and method could use infrared and radio frequency sensing technologies to provide data for visualization of individuals associated with the sensors.
Still another advantage would be if the system and method permitted visualization in two dimension on a monitor screen and would also permit visualization in three dimensions on the screen, as needed.
It would be yet another advance if individual areas such as specific floors in a facility could be selectively monitored by a care provider or other location operators.
Other advantages will appear hereinafter.
It has now been discovered that the above and other advantages of the present invention may be obtained in the following manner. Specifically, the present invention provides a system and method for visualizing the location and movement of individuals in a facility. Included in the system and method are a plurality of sensors located a plurality of locations in a facility and positioned to interact with persons at any location.
A badge is carried or worn by selected individuals using the facility. The badge is interactive with the plurality of sensors in a conventional manner. Preferred sensors are RF and IR sensors.
The information detected by the sensors is sent to a processor adapted to receive signals from the plurality of sensors to create display signals. These display signals are representative of interaction between the plurality of sensors and each badge being carried in the facility. The display signal may indicate identity, activity or condition of the person wearing or carrying the badge. The processor is able to create the display signals and can store them for use at other times or as an archive.
A monitor is used for displaying the display signals for visualization by an observer located in a place in the facility or at a remote location where he or she can issue commands, control access to doors, summons aid or assistance, and direct others to specific locations where the selected individual happens to be.
For a more complete understanding of the invention, reference is hereby made to the drawings, in which:
The present invention provides for graphical representations of selected occupants in a facility in the form of a visualization framework that places graphical objects representing those occupants and their locations on two dimensional (2D) and three dimensional (3D) graphical models of the facility. The present invention is designed for a wide variety of facilities such as, but not limited to, nursing homes, hospitals, assisted living and community living sensors, and is also applicable to prisons, particularly those with less than maximum security demands, camps, schools and the like. Also within the scope of this invention is tracking and displaying the locations of various physical assents, such as, by way of example and not of limitation, critical equipment like defibrillators, oxygen masks, and the like. The present invention provides spatial context for the location information, relieving the user of a difficult spatial integration task.
Different files store building information, contact information, a building site plan, and an alarm list. In
In the event of an emergency requiring the occupants to evacuate or move to a new location, an alarm is sounded.
The forgoing examples have been in 2D.
While particular embodiments of the present invention have been illustrated and described, it is not intended to limit the invention, except as defined by the following claims.