FIELD OF THE INVENTION

The invention pertains to emergency related situational information systems and methods. Emergencies can include fires, hazardous material situations, accidents or the like. More particularly, the invention pertains to systems and methods that provide real-time feedback to situation responders as to locations and activities of personnel in a region of interest.

BACKGROUND OF THE INVENTION

When first responders arrive at the location of an incident, the circumstances or dangers to those persons already in the area or region are often unclear. Local responders have to make decisions based on incomplete, sometimes erroneous information. The responders may have to send their personnel into such regions to try to rescue people, often exposing themselves to dangerous circumstances.

Communications between the emergency personnel in the region and outside of the region are often tenuous at best. There is a continuing need for systems and methods which might assist responders or other supervisory personnel in tracking the location and movement of emergency personnel in the region. Preferably, such systems and methods will not impose any operational burdens on the personnel in the region. It would also be desirable to be able to install and use such systems and methods in regions which might already have operating fire detection systems or the like.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a plan view of a portion of a monitorable region in accordance with the invention; and

Fig. 2 is a block diagram of a portion of a monitoring system in accordance with the invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

While embodiments of this invention can take many different forms, specific embodiments thereof are shown in the drawings and will be described herein in detail with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the invention to the specific embodiment illustrated.

Systems and methods which embody the invention enhance situation awareness of local responders by using live camera feeds, floor plan maps, radio frequency identification (RFID) tags and sensors. With both live camera feeds and RFID tag feedback available more information can be provided to local responders in real-time.

Displayable pre-stored maps or plans of the regions of interest can include camera and tag sensor locations. When a tag is sensed, the appropriate floor plan or region can be presented and a respective camera can be selected. Camera feed can be presented on or adjacent to the floor plan or regional display. First Responders thus have a live view of the situation and can ascertain which and how many personnel are in the displayed portion of the floor or region.

Fig. 1 is an exemplary plan view of a floor or a portion F of a building or region being monitored. It will be understood that corresponding representations of other floors, Fl, F2 ... Fn could also be illustrated in accordance with the invention.

Portions of a monitoring system 10 are installed on the floor F. These include a plurality of video cameras, Cl, C2 ... Cn scattered about the floor F in any convenient fashion depending on the configuration thereof. The cameras Cl ... Cn provide real time images of various aspects of the floor F, as discussed in more detail subsequently.

System 10 also includes a plurality of radio frequency transmitter/receiver 14 such as 14- 1 , 14-2 ...14-k. The transmitter/receiver units 14 are part of a radio frequency identification system which can be used with active or passive RFID tags of known types. As those of skill in the art will appreciate, the selected RFID tags

can be used in combination with the transmitter/receiver 14 to provide location information as to first responders or other emergency personnel on the floor F.

The responders or emergency personnel, such as individual I, can each be equipped with an RFID tag, illustrated generally at 20. The tag 20 can be carried anywhere on the individual's uniform, helmet or other equipment as is convenient. When a tag, such as a tag 20 receives incident RF, such as RF signals RF-k from transmitter/receiver unit 14-k, reply signals such as 22a, 22b can be transmitted by the respective tag and sensed by the receiver of the respective transmitter/receiver unit. Hence, as the individual I moves about the floor F, his/her location can be continuously tracked in real time.

Fig. 2 is a block diagram of various components of system 10. These include a video switch 30 which is coupled to each of the cameras, Cl, C2 ... Cn on the floor F. The switch 30 is coupled to a control system 32 which could include a programmed processor 32a and an associated control program 32b. The processor 32 could be in communication with a display processor 34 coupled to a display 40, as well as a database 36.

Video switch 30 is also coupled to a display unit 40. The video switch 30 can select video feed from one or more of the cameras such as Cl, C2 ... Cn and couple same to the display unit 40 to provide real time images in the region F from the selected camera. It will be understood that the details of the display unit 40 are not limitations of the present invention.

System 10 also receives signals from the plurality of receivers 14-1 ...-k which feed back location information relative to the active RFID tags in the region being monitored, such as the tag 20. In response thereto, processor 32 can select a floor plan(s) such as F, Fl ... Fn from database 36, which might correspond to the plan view of the floor plan F in Fig. 1, and present same on a portion or all of the display unit 40.

It will be understood that the exact representation of the display on the unit 40 is not a limitation of the present invention. Alternate graphical presentations come within the spirit and scope of the present invention. For example, one portion of the

display 40 can present a top plan view of the region such as F associated with feed back being received from the respective receiver, such as 14-i by processor 32. In this instance, the processor 32 can present the respective floor plan, floor plan F for example, on a portion of the display 40. Additionally, processor 32 can direct video switch 30 to select an appropriate one of the cameras, Cl ... Cn associated with an active one of the receivers 14-i.

The real time video from the selected camera can then also be presented on the display 40 to provide to any first responder equipped with a display, a view of that portion of the region where the active RFED tag has been sensed. The display on the unit 40 can provide to the first responder immediate feedback as to the circumstances and activities of the individual I whose RFBD tag 20 has triggered the display.

As the individual(s) I moves across the floor plan F, the RFED tag 20 will be activated by different transmitters and its reply sensed by different receivers. For example, initially the RFED tag of individual 20 would be sensed by a receiver in unit 14-k. As the individual I moves across the floor plan F, and comes within range of transmitter/receiver unit 14-i, the RFED tag 20 would transmit signals 22b to the associated receiver which would then be coupled to processor 32. Processor 32 could in response thereto direct video switch 30 to switch from camera Cn to camera Cl thereby providing real time video of the updated location and circumstances of the individual I.

Those of skill in the art will recognize that the video on display 40 could overlay a plan view, such as the view of Fig. 1. Alternately, it could be presented adjacent to a plan view as illustrated in Fig. 2. Fig. 1 thus is a representation of an exemplary portion F of a region being monitored which illustrates various components of system 10. It is also a representation of a image of region F which could be presented on display 40.

It will be understood that the image of Fig. 1 is but one of a plurality of images corresponding. to various aspects of a region such as floor Fl, F2 ... Fn which could be stored in the database 36 and retrieved as need for presentation on the display 40.

The processor 32 could also be in communication with a regional monitoring system 50 which might be a local fire alarm system or any other building system. The system 50 could include a plurality of detectors 52 scattered throughout the floors F, Fl ... Fn of the region being monitored. Information could simultaneously be presented on display 40 as to members of the plurality 52 which have gone into alarm.

It will be understood that the above description relating to RFID tags is exemplary only. Various types of RFID tags could be associated with first responders or other emergency personnel without departing from the spirit and scope of the invention. Further, regions can be saturated with RF from a common transmitter, hi this embodiment, receivers are installed as in Fig. 1 and respond to signals such as 22a, b from one or more activated RFID tags.

It will also be understood that non-human assets such as livestock or O equipment could also be tagged, tracked and displayed to assist first responders in finding or making determinations as to various assets. Further, displayable information from various cameras or pre-stored location views, from the database(s), illustrating the location or presence of activated tags can be provided not only to command personnel but also to responders in the field via portable displays.

From the foregoing, it will be observed that numerous variations and modifications may be effected without departing from the spirit and scope of the invention. It is to be understood that no limitation with respect to the specific apparatus illustrated herein is intended or should be inferred. It is, of course, intended to cover by the appended claims all such modifications as fall within the scope of the claims.