System and method for the collection, storage, analysis and reporting of event information

A system and method includes an RFID tag that is associated with an object or person. The object or person can actuate a call signal to summon a responder, who would be a person fitted with a BODYWARE™ electronic device that is compatible with electromagnetic signals from the RFID tag. As the responder moves into proximity to the RFID tag, initial information is acquired by a BODYWARE™ electronic device from the signals being emitted by the RFID tag. This cues the responder appropriately for the next step of inputting additional event information or data, which information or data is collected, stored, analyzed and reported as is desired or required by the particular system with which the invention is used. Means are also provided to actuate training methodology to maximize the likelihood of acquiring accurate event data, with feedback being provided to the responder for teaching proper data collection methodology.

FIELD OF THE INVENTION

The present invention relates generally to the field of computers, peripheral computer devices and software methods that enable user interaction with computers, particularly of the type where data and information is collected and documented via wireless technology. More particularly, it relates to a system and method of data collection, data storage, data analysis, and data reporting in the area of event information of the type that is used to facilitate asset utilization and process optimization in a variety of settings. It also relates to such a system and method that is used in a language and presentation methodology that is adaptive to the variety of individuals with whom and by whom the system and method may be used. Finally, it also relates to a multi-cultural and multi-lingual training system and method to correctively train users of the system and method.

BACKGROUND OF THE INVENTION

In the area of data acquisition, the use of wireless communication devices is well known. Radio frequency identification (RFID) technology, in particular, is well known in the art of wireless communication devices and in the art of electronic identification methods. RFID technology relies on the storage and remote retrieval of data by means of one or more transmission or transponder devices that are frequently called RFID “tags.” An RFID tag is a small electronic device that can be attached to or incorporated within a physical item or object for a number of different purposes. RFID tags contain micro-circuitry and antennas that enable them to receive and respond to radio frequency queries from an RFID transceiver. Passive tags require no internal power source, whereas active tags typically require a power source.

Current technology known to these inventors includes the use of RFID tags for animal identification. Several attempts have even been made to implement such technology in humans. For example, certain social clubs in Europe have used implantable RFID tags to identify certain “VIP” customers, which tags also allow them to pay for amenities at those facilities. Similarly, a government office of at least one foreign country has implanted RFID tags in various staff members to control access to secure data rooms.

Accordingly, it will be seen that RFID technology is mature and capable of storing the granularity of information that is required for the system and method of the present invention. It is to be understood, however, that wireless communication devices may include other types of communication technologies other than RFID. For example, certain wireless and cellular phone technologies may be combined with a wireless network and include devices such as pagers, cell phones, Blackberry® devices, personal digital assistants (PDA), tablet computers, Bluetooth® headsets, desktop personal computers (PCs), laptop computers, kiosks, slate computers and dumb terminals. Each of these technologies, and its ability to operate in the context of the method and system of the present invention, is proven to be effective wireless technology. These technologies are mature and capable of storing, processing and providing reporting at the level of granularity required in accordance with the present invention. It is to be understood, however, that such other wireless communication devices and other wireless communication methodologies are included within the scope of the present invention. All of such technologies will be collectively referred to in this application as “RFID technology” or simply “RFID.”

In the view of these inventors, there is a need, in the field of data collection, to utilize RFID technology in settings where the collector of data is a person who is fitted electronically with means for recognizing signals and data that is being transmitted via RFID technology to such person. In the scope of the present invention, it is also desirable that the person who is collecting data be able to intelligently interact with the RFID source to allow the accurate and systematic collection of data from the RFID source. Within such a setting, it is desirable that multi-cultural and multi-lingual factors be considered when the interaction is between a collector of data who is of one background and the person from who information is being collected is of another background. It is also desirable that the person who is collecting the data be properly trained to maximize the accuracy of collected data and to correct inaccurately collected data, or to correct the data collection methodology of the person who is collecting data. Finally, it is also desirable that the collected data be available for electronic transmission, storage and usage as may be desired or required by the user of the system and method of the present invention.

SUMMARY OF THE INVENTION

Accordingly, it is an object of the present invention to provide a system and method whereby RFID technology is used in settings where the collector of data is a person who is fitted electronically with means for recognizing signals and collecting data that is being transmitted via RFID technology to such person. It is another object of the present invention to provide such a system and method whereby the person who is collecting data is able to intelligently interact with the RFID source, including the ability to cross cultural and lingual barriers, to allow the accurate and systematic collection of data from the RFID source. It is still another object of the present invention to provide such a system and method whereby the person who is collecting the data can be trained to maximize the accuracy of collected data and to correct inaccurately collected data or to correct data collection methodologies that are less than optimal. Finally, it is yet another object of the present invention to provide such a system and method whereby the collected data is available for electronic transmission, re-transmission, storage and usage as may be desired or required by the user of the system and method of the present invention.

The system and method of the present invention has obtained these objects. It provides for one or more RFID tags that are associated with a like number of corresponding objects or persons. Each object or person that is fitted with an RFID tag also has the ability or means to actuate a call mechanism or device for the purpose of summoning a responder, who would be a person, that person being similarly fitted with a BODYWARE™ electronic device that is compatible with electromagnetic signals that are emitted from the RFID tag. BODYWARE™ is a mark of DaRT Chart Systems, LLC. In this fashion, the BODYWARE™ electronic device is first called or alerted to a condition that is sensed by the object or person fitted with the RFID tag by some common server. As the responder physically moves into proximity of the given RFID tag, initial information is acquired wirelessly by the BODYWARE™ electronic device from the signals being emitted by the RFID tag. This provides very initial and preliminary data and information about the object or person fitted with the RFID tag, all with the intention of cueing the responder appropriately for the next step of inputting additional event information or data, which information or data is collected, stored, analyzed and reported as is desired or required by the particular system with which the invention is intended to be used. Means are also provided to actuate training methodology to maximize the likelihood of acquiring accurate event data, with feedback being provided to the responder for teaching proper data collection methodology.

The foregoing and other advantages of the system and method of the present invention will be further apparent from the detailed description that follows.

DETAILED DESCRIPTION

Referring now to the drawings in detail, wherein like numbered elements refer to like elements throughout,FIGS. 1 through 7illustrate, in schematic form, one preferred embodiment that utilizes the system and method of the present invention. Although the example given here, which example is given solely for the purpose of illustrating enablement of the present invention, is one where the system and method of the present invention is used in a nursing home type setting where information and data is collected and reported for purposes of assisting in the reimbursement of the nursing home by Medicare, it is to be understood that the system and method of the present has much greater applicability. For example, the system and method of the present invention could be applied in industrial settings to monitor and control manufacturing processes, in office settings to monitor and control work flow, and in institutional settings to monitor and control personnel and personnel performance, to name a few. All of such applications are contemplated as being improved through use of the system and method of the present invention with suitable adaptation being made to the particular requirements of each application.

As applied to the specific application disclosed herein, it is to be understood that the goal is to collect and report Minimum Data Set (MDS) data that is used for nursing home resident assessment and care screening. This form is discussed in greater detail in co-pending application, PCT App. No. PCT/US 2004/043177, entitled “MULTI-CULTURAL AND MULTIMEDIA DATA COLLECTION AND DOCUMENTATION COMPUTER SYSTEM, APPARATUS AND METHOD.” In general, the form includes data and observation documentation that is essentially mandated by the Medicare program. The MDS form includes a plurality of patient-sensitive considerations, such as Activities of Daily Living (ADL), self-performance difficulty and support needed patterns, patient communication/hearing patterns, mood and behavior patterns, physical functioning and structural problems, special treatments, and so on. Each consideration presents a plurality of possible responses and the user populates each specific consideration with an appropriate response. As each consideration is presented to the user, the user may choose a given response.

Referring now specifically toFIG. 1, which is drawn to the preferred embodiment, it illustrates an indefinite number of patients, identified as P1, P2, and so on, up to PN, which indicate any number of patients within the particular healthcare environment and with which the method and system of the present invention is utilized. Each patient P1, P2, and PNhas an RFID tag20,30,40, respectively, attached to or associated with that particular patient. In the method and system of the present invention, a first patient P1who requires some sort of intervention by a facility patient care staff member S because of an “event,” triggers21an alarm8, which could be a call button or other similar device, which sends a signal6to a centralized server4. The server4, in turn, sends a signal2of its own which is received by a BODYWARE™ electronic device50of a particular staff member S, which BODYWARE™ electronic device50informs51the staff member S of the event. In this fashion, the first patient P1signals the staff member S that he or she is in need of some sort of assistance.

FIG. 2illustrates that, following the triggering21of the alarm8by the first patient P1, that the staff member S approaches the first patient P1and comes within close proximity to the first patient P1. When the staff member S is within a given proximity distance10relative to the patient P1, the tag20of the first patient P1transmits, via radio frequency transmission or other suitable transmission means, a signal22which provides input to the BODYWARE™ electronic device50of the staff member S. At this point, the staff member S is prompted to have access52to certain information that is particular to the first patient P1. For example, this information could include, in the setting of a nursing home, who the patient is, what language he or she speaks and what event he or she just experienced. At the same time, the BODYWARE™ electronic device50of the staff member S will relay that information to the staff member S such that the staff member S can approach the patient and elicit additional information from that patient using the patient's particular language.

As shown inFIG. 3, the staff member S and the first patient P1will be in proximity to share information that is provided54from the first patient P1to the staff member S and the staff member S will prompt24the first patient P1for certain additional information that is relevant to that patient's care. Additionally, staff member S will be able to obtain information53regarding the first patient P1from the electronic device50. Staff member S will also be able to add information53regarding patient P1to electronic device50.

An additional feature that is incorporated into the system and method of the present invention is the fact that the staff member S will be capable of obtaining immediate training feedback by means of a trainer T who is also equipped with a BODYWARE™ electronic device that is similar to that with which the staff member S is provided. SeeFIG. 4. This provides means for communication56,61by the staff member S and the trainer T with his or her BODYWARE™ electronic devices50,60. This also provides for two-way communication and transmission65,55of information between the respective BODYWARE™ electronic devices60,50worn by the trainer T and by the staff member S, respectively, together with additional verbal dialog57,67from and to each of those persons. In an alternative embodiment, which is shown inFIG. 5, the information and feedback that is provided by the first patient P1and his or her RFID tag20is transmitted22ato the staff member S and his or her BODYWARE™ electronic device50at the same time the trainer T and his or her BODYWARE™ electronic device60receives22bthe same information from the first patient P1tag20. In this fashion, the trainer T is receiving22bthe same information that the staff member S is receiving22aand will be provided with information that is common to that patient.

In an alternative embodiment, which is shown inFIG. 6, the staff member S, together with his or her BODYWARE™ electronic device50, approaches a training station70at which point the BODYWARE™ electronic device50will download58the responses that were inputted by the staff member S during his or her intervention with the patient P1and will provide the staff member S with certain audio72and/or visual74feedback, the visual74feedback being provided, for example, by means of a video playback device75. Alternatively, the trainer T may provide the staff member S with direct verbal feedback69as is illustrated inFIG. 7, the staff member S responding appropriately59to confirm his or her understanding of corrections that need to be made by the staff member S relative to his or her information collection methodology.

Referring now toFIG. 8A, it will be seen that the BODYWARE™ electronic device, now identified80, that is carried and/or worn by the staff member S includes, in the preferred embodiment, a combination screen display82and information transmission means88. The device80would also include a screen display scroll means84, such as an “up” and “down” scroll key, which would allow the staff member S to scroll up or scroll down a given list of display options. The device80would further include an option selection means86, in the form of a button, which would allow the staff member S to select the most appropriate response to a given query.

As shown inFIG. 8A, a first screen display82awould be shown to the staff member S upon his or her initial contact with the patient P1. At this point, the screen would display four alternative responses to a first query, the most appropriate of which would be selected by staff member S relative to the particular event that is being responded to. In the preferred embodiment, this would be accomplished by the healthcare provider scrolling down the selection options on the screen display82aand then “clicking”86athe select button86. As shown schematically inFIG. 8A, the staff member S would be presented with four choices—“A,” “B,” “C” or “D.” As shown more specifically inFIG. 8B, the options that would be available would include “toilet,” “bed mobility,” “transfer” and “eating.” In this situation, “transfer” would be the most appropriate response and that is the response that the staff member S would select. Upon this first click, a second screen display82bof options would be provided to the staff member S.

As shown schematically inFIG. 8A, the staff member S would be presented with four choices—“1,” “2,” “3” and “4.” As shown more specifically inFIG. 8B, the available options would be “set up only,” “TALK GUIDE®,” “TOUCH GUIDE®” and “TAKE WEIGHT GUIDE®.” The terms TALK GUIDE®, TOUCH GUIDE® and “TAKE WEIGHT GUIDE® are registered marks of DaRT Chart Systems, LLC. In this situation, “TAKE WEIGHT GUIDE®” would be the most appropriate response and that is the response that the staff member S would select. Upon this second click86b, a third screen display82cof options would be provided to the staff member S.

Again, as shown schematically inFIG. 8A, the staff member S would be presented with four more choices—“a,” “b,” “c” and “d.” More specifically, the available options, as shown inFIG. 8B, would be “ONE PERSON ASSIST,” “TWO OR MORE PERSON ASSIST,” “100% ASSIST—ONE PERSON” and “100% ASSIST—TWO OR MORE PERSONS.” In this situation, “TWO OR MORE PERSON ASSIST” would be the most appropriate response and that is the response that the staff member S would select. Upon this third click86c, the collected data would be transmitted88to a centralized server for processing. This “three click” methodology would effectively “disarm” the alarm8that was initiated by the patient. It should also be noted that the “three click” method disclosed in this application is intended to enable the staff member S to elicit the maximum amount of information from the patient in the minimum number of steps. In this fashion, time is saved in the overall data collection process. Over time, accuracy of the data collected is ensured due to the staff member's familiarity with this “three click” methodology and the adaptation of the information collection process to the multi-cultural and multi-lingual environment in which it is used.

Referring now toFIG. 9, it will be seen that an overall system workflow schematic diagram for this preferred embodiment is illustrated which shows the interaction between the patient P and his or her tag20and the healthcare provider. In general, it will be seen that a system, generally identified100, within which the system and method of the present invention is incorporated comprises a facility patient care staff110that interacts with the patient P, the patient being fitted with a tag20as previously described. Once the appropriate information from the patient P is obtained, the facility patient care staff110can generate daily forms112that can then be faxed114via electronic transmission116to a data processing system120. It should be understood that the capturing of appropriate information by the BODYWARE™ electronic device50,80as previously described could also bypass the need to complete daily forms112and the need to fax them114as shown. Such information transmission could be by electronic and wireless means (not shown) that would directly interface with the data processing system120. The data processing system120of the particular system100described herein includes a data verification122stage and a data processing124stage. The resulting data is then e-mailed or faxed126as reports128which are then distributed to either a care coordinator132, an MDS coordinator134and/or an accounts receivable136department or person. Again, the data contained in the reports128could also be transmitted wirelessly to the same recipients using known wireless technology.

As shown inFIG. 10, the generated reports can also be exchanged between various partners with which the system and method of the present invention can be utilized.FIG. 10is just one example of the method and system of the present invention being used within the preferred embodiment described above. The primary components of the system include a data capture200element and a decision engine300element. As was previously described, the staff member S, utilizing a BODYWARE™ electronic device80, is able to message information and events, together with alarms, locations and other relevant information, that is pertinent to a patient within the particular system. The device80is also capable of clearing itself once the proper information is reported202. The information is reported to an application event server204which then interacts with a customer web portal320by means of a web vpn, or “virtual private network,” server access port324. The application event server202is also connected206to a temporary data store208which provides for local server reporting210and data transmission212to a primary data input/output engine device302. The data input/output device302includes a bus that connects a data warehouse304and a data foundation306. data input/output302also provides schedule event messages and alarms216. The data warehouse304is available for ad hoc reporting308. Similarly, the data foundation306is available to provide various reports312,314,316which are then displayed318on the customer web portal320. All alliance partners218within the system are able to access222the data input/output device302and are able to generate their own reports220which are then displayed322on the customer web portal as well.

It is to be understood that the system and method of the present invention, although described in the preferred embodiment as being used within the setting of a nursing home, could be used to collect, store, analyze and report various other event information to facilitate other staff utilizations and other process optimization. This can be done in a variety of multi-cultural and multi-lingual settings that would include multi-cultural and multi-lingual training modules that focus on the correction of trainee errors. The system and method of the present invention could, for example, find wide application in the hospitality industry where participants require the utilization of multi-lingual employees to manage staff and/or interact with guests. The system and method of the present invention could also be adaptable for customer service oriented businesses that service hard assets. For example, the use of the system and method herein would enhance the customer experience by “tagging” the asset at the point of sale or service with customer-specific information. That information could then be used and stored which would then allow for interaction with the customer on subsequent visits and in that customer's particular language. Most importantly, the stored information would be utilized in a way that personalizes it and enhances the customer experience and the responsiveness of the service provider.

In view of the foregoing, it would be apparent that there has been provided a system and method of data collection, data storage, data analysis and data reporting in the area of event information of the type that can be used to facilitate asset utilization and process optimization in a variety of settings; that uses multi-lingual and multi-cultural concepts in both data capture and date presentation methodologies that are adaptive to the wide variety of individuals with whom and by whom the system and method may be used, as well as with assets with which the system and method may be used; and that provides a multi-cultural and multi-lingual training system and method to correctively train users of the system and method. This would utilize training staff and/or training stations that would prompt trainees to view multi-cultural and multi-lingual training modules that focus on the correction of trainee errors and that successfully completes the corrective training and improved understanding of the trainee relative to the events to be captured.