Patent Document

FIELD OF INVENTION 
     The present invention relates generally to scheduling systems, and more particularly, the present invention relates to a multi-facility appointment scheduling system whose implementation and manipulation are handled over global, wide-area, or local-area communications networks. 
     BACKGROUND OF THE INVENTION 
     In many service-related industries, there exists a need to accommodate the schedules of clients who wish to utilize a plurality of services at a multitude of facilities. For instance, in the medical industry, specialization of practices has led to the development of service providers who serve their clients at a variety of locations, one of which may serve as the provider&#39;s central location, or headquarters. For example, a patient (the client), upon the prescription from a physician, may require a procedure to be performed at a specialized facility equipped with specialized equipment. These facilities may either be stand-alone centers or hospitals and service large populations and a great number of physicians. Current methods of scheduling this procedure require a phone conversation with a scheduler at the facility which will provide the service. Since the service could potentially be performed at a variety of sites, the current method could require numerous attempts to contact a variety of facilities before scheduling an appointment at a facility which has the resources (i.e., specific equipment) necessary to provide the service at a time which accommodates the client&#39;s scheduling needs. Given the jumbling of locations, services offered at each location, and variables such as specific practitioners&#39; specialties or client preferences, scheduling each location&#39;s resources for maximum effectiveness can prove to be burdensome, particularly given the vast amount of data associated with each client&#39;s appointment, including personal and medical histories and insurance and other payment information. The services rendered are performed offsite from the client location, in large part because the costs associated with the equipment necessary to perform such services are so high that individual practitioners ordinarily cannot afford such equipment. 
     Previous attempts have been made to provide systems through which the scheduling of remote locations may be achieved. For example, U.S. Pat. No. 5,848,403 to Gabriner et al. (the &#39;403 patent) describes a genetic algorithm scheduling system which includes a system of encoding and testing hard constraint information. The general scheduling system has information about the scheduling problem, in the form of the resources available for performing tasks, a description of the tasks to be performed, and information about the problem domain. 
     U.S. Pat. No. 5,842,173 to Strum et al. (the &#39;173 patent) describes a computer-based surgical services management system for communicating between sites of a surgical services facility. The system includes repeaters, remote access via modems, data archives, reactive and predictive scheduling, analysis, data maintenance, telephone communications. U.S. Pat. No. 5,748,907 to Crane (the &#39;907 patent) describes a real-time medical facility management system. U.S. Pat. No. 5,469,353 to Pinsky et al. (the &#39;353 patent) describes a network for providing medical interpretations of radiological images on a national or regional basis. U.S. Pat. No. 5,321,605 to Chapman et al (the &#39;605 patent) describes a system for managing process flow information related to a multiplicity of interrelated organizational tasks. 
     U.S. Pat. No. 5,289,531 to Levine (the &#39;531 patent) describes an electronic rescheduler for promptly and efficiently rescheduling appointments in a two-part procedure. The first step includes the selection of one or more time periods during which a new appointment would be desired, and in the second step a new appointment is chosen from the selected time periods. The system is telephonically-driven. U.S. Pat. No. 5,301,105 to Cummings, Jr. (the &#39;105 patent) describes a health care management system. U.S. Pat. No. 5,113,380 to Levine (the &#39;380 patent) describes an electronic rescheduler. U.S. Pat. No. 5,065,315 to Garcia (the &#39;315 patent) describes a hospital computerized system for entering information pertinent to a patient&#39;s stay in the hospital. U.S. Pat. No. 4,937,743 to Rassman et al. (the &#39;743 patent) describes a method and system for the prospective scheduling, monitoring and management of resources using a computer system. 
     None of the foregoing systems, each of which is incorporated herein by reference, provides a system which utilizes technology offering access to each of the remote locations via a global communications network such as the Internet. 
     None of the foregoing systems provides an efficient system for managing the scheduling of multiple facilities, each of which facilities includes multiple resources for providing a variety of client services, such as different procedures to be performed upon clients, each of which procedures requires a specific type of equipment maintained within particular resources of particular facilities. 
     Consequently, there is a need in the art for a computer implemented multi-facility scheduling system which enables a remote scheduler to arrange client appointments for a variety of services to be provided at a variety of facilities in an efficient, cost-effective manner. 
     There is a further need in the art for a multi-facility scheduling system to permit a client, or a person acting on the client&#39;s behalf, to obtain a variety of scheduling options in order to effectively and efficiently schedule appointments available at a variety of locations. 
     There is a further need in the art for a multi-facility scheduling system which can also be manipulated on a facility-by-facility basis, with interaction among the various facilities via an electronic communications mechanism such as, for example, the global communications network known as the Internet. 
     SUMMARY OF THE INVENTION 
     The present invention solves significant problems in the art by providing a computer-implemented system for scheduling appointments at a plurality of facilities, each facility including a plurality of areas equipped to provide services. 
     Generally described, the present invention provides a computer-implemented method of scheduling an appointment at a plurality of facilities providing a plurality of services, comprising receiving a packet of client information from a client, the client information including personal data, service data, client appointment preference data, and payment data; comparing the service data to a set of service constraints in order to determine any limitations on the scheduling of the appointment; inputting the client information into a scheduling server; verifying the client information; generating a predetermined number of appointment candidates based upon an analysis of the client information and the appointment scheduling limitations; communicating the appointment candidates to the client; generating an appointment based upon the client&#39;s selection of one of the appointment candidates; generating appointment information related to the appointment, the appointment information including the client information, the service constraints, an appointment date, an appointment time, the identity of the available facility, and the resources to be utilized; reporting at least a portion of the appointment information to the client and all of the client information to the available facility; and confirming the appointment in the scheduling server. 
     In a preferred embodiment, the present invention also comprises a data processing system for scheduling an appointment at a plurality of facilities providing a plurality of services, comprising a receiver for receiving a packet of client information from a client, the client information including personal data, service data, client appointment preference data, and payment data; a constraint determiner for comparing the service data to a set of service constraints in order to determine any limitations on the scheduling of the appointment; an inputter for inputting the client information into a scheduling server; a verifier for verifying the client information; a candidate generator for generating a predetermined number of appointment candidates based upon an analysis of the client information and the appointment scheduling limitations; a candidate communicator for communicating the appointment candidates to the client; an appointment generator for generating an appointment based upon the client&#39;s selection of one of the appointment candidates; an appointment information generator for generating appointment information related to the appointment, the appointment information including the client information, the service constraints, an appointment date, an appointment time, the identity of the available facility, and the resources to be utilized; an appointment information reporter for reporting at least a portion of the appointment information to the client and all of the client information to the available facility; and an appointment confirmer for confirming the appointment in the scheduling server. 
     In an alternative embodiment of the present invention, the method further includes the step of allowing appointments to be rescheduled or canceled, and the data processing system includes an appointment modifier for rescheduling or canceling appointments. 
     In an alternative embodiment of the present invention, the step of receiving the packet of client information is accomplished via the Internet, a local area network, or a wide area network. 
     Accordingly, it is an object of the present invention to provide a computer-implemented method of scheduling an appointment at a plurality of facilities providing a plurality of services. 
     It is another object of the present invention to provide a data processing system for scheduling an appointment at a plurality of facilities providing a plurality of services. 
     These and other objects, features, and advantages of the present invention will become apparent upon reading the following specification when taken in conjunction with the accompanying drawings. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a diagrammatic view illustrating the relationship between the clients, the organizations, and the organizations&#39; facilities of the scheduling system of the present invention. 
     FIG. 2 is an illustration of the flow of information throughout the scheduling system of the present invention, from the initial contact by a client or client&#39;s representative through the transmission of appointment information for integration into an application program such as a billing program. 
     FIG. 3 is a flow chart illustrating the method of the preferred embodiment of the present invention. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Referring initially to FIG. 1 of the drawings, in which like numerals indicate like elements throughout the several views, in a preferred embodiment the scheduling system  10  of the present invention allows a client  20  to contact, via computer implementation, any one of an organization&#39;s  30 ,  40 ,  50  multiple facilities  35 ,  45 ,  55  to schedule an appointment. A facility is a physical site, such as a clinic, diagnostic center, or treatment center. Referring to FIG. 2, a client  20  may either be the client himself  21  or the client&#39;s representative  22 , such as in the case of a referring physician seeking a specific type of medical treatment for one of his patients. 
     An organization  30 ,  40 ,  50  is the service provider whose multiple facilities  35 ,  45 ,  55  are accessible using the computer-implemented scheduling system  10  of the present invention. Each organization  30 ,  40 ,  50  may group its facilities  35 ,  45 ,  55 , using remote scheduling servers  38 ,  48 ,  58 , so as to permit access to each facility&#39;s  35 ,  45 ,  55  schedules. For instance, facility  35   a  is independently connected to a scheduling server  38   a , while facilities  35   b ,  35   c , and  35   d  are collectively connected to a scheduling server  38   b . The distinction between these types of groupings is that the server  38   a  connected to facility  35   a  can only access scheduling information for facility  35   a , while the server  38   b  connected to facilities  35   b ,  35   c ,  35   d  can access all three of these facilities&#39; scheduling information. The scheduling information maintained on the various servers  38 ,  48 ,  58  is accessible via an electronic communications link  7 O between the servers and, for example, a global communications network such as the Internet. 
     Access to each organization&#39;s  30 ,  40 ,  50  collective scheduling information begins at the scheduling system&#39;s  10  central schedule servers  80 . When the client  20  wishes to schedule an appointment for a specific type of treatment, the client  20  connects to the scheduling system  10  by connecting to one of the central schedule servers  80  via the electronic transmission mechanism  70 , which network may take the form of the Internet, a local area network (LAN), wide area network (WAN) or even a telephone call. The client  20 , by entering a predetermined access code, is able to access an organization&#39;s facilities. Once the client  20  accesses a specific organization, the scheduling system  10  prompts the client  20  to provide client information for the purpose of scheduling an appointment. 
     Client information includes personal data about the client, such as the client&#39;s name, date of birth, social security number, address, telephone number, referring physician, and the like; service data, such as the diagnosis and recommended treatments; payment data, such as the client&#39;s insurance information; and client appointment preference data, such as the preferred date, time, and specific facility where the client would like to schedule an appointment. The scheduling system confirms the information received from the client with the client and verifies certain of the information, such as for instance the client&#39;s insurance information (as depicted in FIG. 2 at reference number  160 ), by communicating, via means familiar to those of ordinary skill in the relevant art, with sources of such information, such as the insurance company. 
     Once the scheduling system  10  receives the packet of client information from the client  20 , it compares the service data to an existing set of service constraints in order to determine any constraints on the scheduling of an appointment for the client. For instance, if a client  20  wishes to schedule a Magnetic Resonance Imaging (MRI) treatment, the MRI may not be capable of administration if the client, for example, wears metal braces on his teeth. Also, it is common for certain procedures to be ordered at the same time. Those procedures are specified and named as a procedure group. A procedure group can consist of procedures of one or more modalities. Certain procedures must be performed on the same day, while others must not be performed on the same day. Constraints for a procedure specify which procedures must be performed on the same day, and which must not be performed on the same day. Additionally, certain procedures must be performed in a specific sequence. Precedence rules defined for a procedure specify the required sequence of certain procedures. 
     Once the central scheduling server  80  generates the appointment scheduling limitations, the limitations and the client appointment preferences are utilized in order to generate a predetermined number of appointment candidates. The central scheduling server  80  communicates the requests to the remote schedule servers  38 ,  48 ,  58 , which actually generate the candidates and pass them back to the central server  80 . Each remote schedule server  38 ,  48 ,  58  generates appointment candidates using data from the particular facilities  35 ,  45 ,  55  to which each remote server  38 ,  48 ,  58  has access. Thus, the scheduling server  80  generates the appointment candidates by communicating with the organization&#39;s remote schedule servers  38 ,  48 ,  58 , which in turn communicate with the organization&#39;s facilities  35 ,  45 ,  55  to determine which of the facilities are available to provide the requisite services at the preferred date and time. The availability and downtime of the facility and resources is considered during the scheduling process. The operating hours of the facility, suites and equipment, and the working hours of the staff contribute to the determination of availability. Restrictions for a procedure and procedure group also contribute to the determination of availability. A scheduling restriction at a particular date and time, such as preventive maintenance or a staff meeting, is defined as downtime. Availability masks are specified to define when an entity is available. An availability mask consists of the start time, frequency, day of week, and duration. For example, for a facility with operating hours of 9 am to 7 pm Monday through Friday, and 9 am to 12 pm on Saturday, a mask is created for each weekday beginning at 9 am for 10 hours, and one for Saturday beginning at 9 am for 3 hours. A duration is defined for each procedure. Therefore, the scheduling process considers the following issues when attempting to schedule an appointment: 
     Resources required by procedures in the schedule group 
     Availability masks defined for the facility 
     Availability masks defined for the resources required by procedures in the schedule group 
     Availability masks defined for the procedures, procedure groups and modalities in the schedule group 
     Existing appointments for the resources required by the procedures in the schedule group 
     Availability of the patient 
     The facilities  35 ,  45 ,  55  communicate their availability back to the central scheduling server  80  via their respective remote schedule servers  38 ,  48 ,  58 . The scheduling server  80  then communicates the various appointment candidates directly to the client  20 . If the client  20  wishes to select one of the appointment candidates, the client  20  so notifies the scheduling server  80 . If the client does not want to select any of the appointment candidates, an alternative set of appointment candidates is generated in the same manner as the initial set of candidates. Upon receipt of the client&#39;s notification as to which appointment candidate the client wishes to select, the scheduling server  80  communicates the notification to the selected facility  35 ,  45 ,  55 , via the facility&#39;s remote schedule server  38 ,  48 ,  58 . The scheduling system  10  then generates information related to the selected appointment, including the client information, the service constraints, the appointment date and time, the facility at which the appointment will occur, and the specific resources to be utilized at the facility during the appointment. Resources include the specific room to be utilized for the appointment, along with the staff and equipment required to perform a procedure. Staff denotes the technical, professional, or administrative staff whom are represented within the facility. Equipment denotes the types of machinery or apparatus located within the facility. The scheduling system  10  then reports all of the appointment information to the facility  35 ,  45 ,  55  at which the service will be performed, and a portion of this information—the client information, the appointment date and time, and the facility&#39;s identity—to the client  20 , and confirms the appointment with the facility  35 ,  45 ,  55  at which the appointment is scheduled to occur. In connection with the scheduling of the appointment, a unique appointment number is transmitted to both the client  20  and the facility  35 ,  45 ,  55  at which the appointment is scheduled. 
     The scheduling system  10  of the present invention also includes the capability of handling the rescheduling or canceling of previously-scheduled appointments. A client  20  may connect to the scheduling server  80  via the method discussed above and, once connected, may notify the scheduling server  80  of his appointment number, at which time the scheduling server  80  will locate the appointment information generated when the appointment was scheduled. Once the appointment information is retrieved, the scheduling server  80  will provide the client  20  with options regarding the appointment, including without limitation confirmation, cancellation, and modification. If the client  20  wishes to cancel the appointment, the scheduling server  80  will notify the facility  35 ,  45 ,  55  at which the appointment is scheduled to occur, in order that the facility  35 ,  45 ,  55  can remove whatever restrictions were placed upon it, in terms of resources, by the scheduling of the appointment, thus freeing up those resources for a different client&#39;s use. Should the client  20  wish to reschedule the appointment, the scheduling server  80  will obtain from the client  20  a new set of client appointment preference data and will, in the same manner described above, generate a new set of appointment candidates from which the client  20  may select in order to reschedule his appointment. 
     As illustrated in FIG. 2, the scheduling system  10  of the present invention is also capable of allocating facilities and resources to clients who seek and/or receive services without an appointment, i.e., walk-in clients  23 , and of reallocating facilities and resources in situations where clients with scheduled appointments to not appear for their appointments without canceling their appointments. When such situations occur, personnel at the facility  35 ,  45 ,  55  affected by the walk-in or no-show enter into the facility&#39;s remote schedule server  38 ,  48 ,  58  appropriate information pertaining to the resources encumbered (in the case of a walk-in) or available (in the case of a no-show), and this information is in turn transmitted via the electronics communications network  70  to the central scheduling server  80 . 
     Looking at FIG. 2, once the appointment is generated and confirmed with the client  20 , the appointment information can also be made available for export to an external system  90 , such as a billing program. For example, once the appointment is generated, the client information, including insurance information, can be integrated into an organization&#39;s billing program so that the client  20  is appropriately billed for the services rendered at the facility  35 ,  45 ,  55  at the time of the appointment. 
     FIG. 3 is a flow chart illustrating a typical operation of the  1 o scheduling system of the present invention. In steps  305 - 315 , the appointment candidates are generated. Once steps  305 ,  310 ,  312 , and  315  occur, and the system generates a set of appointment candidates, steps  320 ,  325 , and  330  repeatedly determine if the client has selected an appointment candidate. In step  335 , once the client selects an appointment candidate, the appointment information is generated, and in step  340 , the appointment information is transmitted, as discussed above, to the client and facility. In step  350 , the appointment information is transmitted to the external system  90  for integration into another application. 
     In an alternative embodiment of the scheduling system of the present invention, the client  20  can access multiple organizations  30 ,  40 ,  50  for the purpose of scheduling appointments at any of the multiple organizations&#39; multiple facilities  35 ,  45 ,  55 . For example, one organization  30  may consist of  7  facilities and a second organization  40  may consist of  3  different facilities. Under the alternative embodiment of the present invention, the client  20 , either directly  21  or through his representative  22 , may access scheduling information from both organizations and therefore schedule an appointment based upon the availability of up to ten ( 10 ) different facilities. Under such a scenario, the various organizations&#39; 30 ,  40 ,  50  scheduling information is compiled in a consolidation server  60 . 
     While the foregoing description relates to an application of the present invention in the medical industry, it should be understood that the present invention is applicable to any industry in which the scheduling of resources at a variety of locations is desired, such as, for example, the hotel industry (reserving guest rooms or meeting areas among various hotels in a chain) or convention industry (reserving meeting areas within a geographic area hosting a particular convention). 
     Accordingly, it will be understood that the preferred embodiment of the present invention has been disclosed by way of example and that other modifications and alterations may occur to those skilled in the art without departing from the scope and spirit of the appended claims.

Technology Category: 3