PATENT ABSTRACT
A system for and method of providing interfaces between client devices and existing software applications. This may include interfacing existing software applications via wired and wireless intranets or the Internet to client devices that may include voice-enabled client devices. The interface could also be in two different languages. The embodiments described below share the ability to monitor, reinterpret, and reformat data streams by means of a computer operating trainable user interface translator applications.

PATENT DESCRIPTION
FIELD OF THE INVENTION  
         [0001]    The present invention relates generally to providing interfaces to existing applications. More specifically, by monitoring, reinterpreting and reformatting data streams the invention allows interfacing between existing applications and wired and wireless Internets, voice-enabled devices, and users who speak languages other than those in which the existing applications are written.  
         BACKGROUND OF THE INVENTION  
         [0002]    There are thousands of existing text-based applications designed for terminals like the IBM 3270 and the DEC VT200. Companies using these applications benefit from the usefulness of these applications but have a need to make the associated data and logic accessible remotely, such as via the Internet or via wireless networks. Typically, companies faced with inaccessible applications rewrite the application. However, this approach is often not cost effective because of the associated high development cost. Further, when organizations rewrite applications, much of the business logic inherent to the original application is lost, reducing the functionality of the newly created application. In client-based applications, this situation can lead to operational efficiencies, decreased customer satisfaction, and compromised security.  
           [0003]    Due to the widespread use of text-based applications combined with a demand for remote operations, the market for software products that make these applications accessible remotely has grown into the billions of dollars per year. As increasing numbers of business functions migrate to the Internet and wireless applications, existing software applications will be expected to perform in these arenas.  
           [0004]    Text-based applications that are not remotely accessible by users can cause a number of inefficiencies. For example, in the case of a business utilizing an inventory program, it is most efficient for the business if the program is accessible from the warehouse floor. Furthermore, the program best serves the business if the functionality and data associated with the program can be accessed on a wireless device that can then be carried about the warehouse floor to different locations. However, current text-based applications are not enabled for wireless devices or for the Internet, leading to relatively inefficient business operations. What is needed is a way to improve the efficiency of a business.  
           [0005]    The ever-quickening pace of change in the arena of remote computer access leaves many business applications obsolete, or at least outdated, in a short amount of time. The Internet, PDAs, cell phones, etc., are all recent innovations to which existing applications must adapt in order to remain useful to business customers. Outdated applications can result in customer loss because of inaccessibility, decreased performance, and poor functionality. What is needed is a way to better service customers who need information residing on inaccessible computer systems.  
           [0006]    Many existing applications contain data that is needed by users operating computers remotely. Further, remote users often have data that must be stored within an application. Currently, most existing applications provide no means for remote users to interact with the application, reducing the usefulness of the application, increasing inefficiencies, and raising the costs associated with doing business. What is needed is a way to enable users to remotely enter as well as remotely access data in an existing application via the Internet or a wireless device.  
           [0007]    Increasing the functionality of existing applications in addition to making them remotely accessible can greatly increase the efficiency of business operations, and thus increase cost savings. For example, reformatting display screens so that an Internet business customer is presented with different functionality than business personnel can lead to increased security. However, enhancing the functionality of existing applications is difficult without recoding the entire application, which is costly and time-consuming. What is needed is a way to enable a business to rapidly provide access to data in an existing application via the Internet with additional features like security.  
           [0008]    Businesses must often utilize numerous computer systems to service all aspects of their operations. Because different people may have created these systems at different times, they often lack a uniform interface with the user. Non-uniform interfaces can lead to a number of operational inefficiencies, such as increased training time for users, compromised corporate identity, and confusing functionality. What is needed is a way to provide a uniform interface to data residing in multiple computer systems.  
           [0009]    The widespread use of voice-enabled devices like cell phones, which often lack a traditional display and keyboard, requires improved means of interfacing with existing applications. To facilitate access to the data and business logic of existing applications for users employing such voice-enabled devices, the controlling software of these devices must convert existing data to voice prompts and reports, as well as accept spoken information as input to the applications. For example, a shipping company may want to allow customers to check the shipping status of a package from the company&#39;s scheduling application via a cell phone. By offering this feature, the shipping company may dramatically increase its client base. To make the interface of the existing applications best suited to a voice interface, the controlling software must select data from the traditional display for vocalization and prompt users for input information in small, comprehensible increments. What is needed is a way to enable a user to access an existing application via a voice interface.  
           [0010]    As software becomes available that enables users to access an existing application via a voice interface, tailoring the presentation of information from the existing application to the user becomes an important consideration. The interface of the existing application must be suited to a voice interface in order to be comprehensible to the user. For example, a shipping company would not want a voice interface to overwhelm the user with all of the information that is offered on its traditional display (e.g., company address, user&#39;s contact information, company slogan, etc.) because much of this information is extraneous and difficult to process during a voice interface session. Rather, the shipping company would want to select and transform the information contained in its traditional display to information that is relevant to the user&#39;s request. What is needed is a way to redesign the interface to an existing application so that it is suited to a voice interface.  
           [0011]    With the increasing globalization of the world, language translation is increasingly becoming an essential requirement of conducting business. There are thousands of existing applications that must accommodate speakers and writers of languages different from those used in the original applications. Typically, companies faced with applications inaccessible to those who speak and write other languages must rewrite the application in the target language or resort to tools that enable limited word-for-word translations. Unfortunately, rewriting applications is generally not cost effective because of the associated high development costs, and word-for-word translation does not account for cultural conventions in the application interface. Further, when organizations rewrite applications for the sake of accommodating different languages, much of the business logic inherent to the original application may be lost, thus reducing the functionality of the newly created application. Existing software translation applications typically perform translation on a word for word basis, which is limited in its functionality due to its reliance on predefined source files and its tendency to distort the interface of the existing application. What is needed is a way to provide an effective interface to an existing application in a different language without translating the content word for word.  
           [0012]    In order to provide an effective translation interface of an existing application to a different language, culture-specific norms must be considered and accommodated. For example, in many countries the calendar date is formatted as DD-MM-YY, whereas the calendar date in the U.S. is formatted as MM-DD-YY. Other examples of culture-specific conventions include the direction text is written on a page, colors used for illustration, and table formatting. Careful attention to these culture-specific conventions may determine the ultimate success of a translation tool. Cross-cultural norms are often at odds with each other and can be a particularly sensitive topic. For example, a user of an existing application in one country registering at a hospital may expect to be asked to provide a guarantor, whereas a user in another country may find a request for a guarantor insulting. Current translation software tools are typically unable to provide flexibility within the business logic executed in an existing application, leading to ineffective tools and unsatisfied customers. What is needed is a way to adjust the business logic of an existing application to make it suited to another culture.  
         SUMMARY OF THE INVENTION  
         [0013]    The present invention is a system for and method of providing interfaces between client devices and existing software applications. This can include interfacing existing software applications via wired and wireless intranets or the Internet to client devices that may include voice-enabled client devices. The interface could also be in two different languages. The embodiments described below share the ability to monitor, reinterpret, and reformat data streams by means of a computer operating a software training application. The techniques employed in the current invention build upon “trainable user interface translator” technology (referred to below as “TeleShaper” technology) as described in U.S. Pat. Nos. 5,627,977 and 5,889,516, which are assigned to the assignee of the present application and which are hereby incorporated by reference in their entirety into the present application.  
           [0014]    In a first embodiment, the invention is a trainable system for providing an interface to an existing software application via a wired or wireless network, comprising a first computer operating a trainable user interface translator application and adapted to store a shaper rule set, a Web server, at least one client device, a format data storage device, a training terminal, one or more local or remote host computers operating an existing host applications thereby generating data streams which may be monitored by the first computer, and a wired or wireless network providing electrical connection between the first computer and the web server, the first computer and the training terminal, the first computer and the one or more host computers, and the web server and at least one client device. The first computer transmits data received from the at least one client device via the web server to the one or more host computers and, according to the shaper rule set established during a training session, monitors and reinterprets the data streams present in the existing host applications into updated forms for transmission to the web server, which reformats the updated forms using format data stored in the format data storage device for transmission to the at least one client device.  
           [0015]    In another aspect, the invention is a method of defining the representation of data on the client device, training the trainable system to operate the existing host applications to insert data to and extract data from one or more host computers, and using the trained system to provide an interface via wired and wireless networks. Employing the apparatus described in the previous paragraph, the method comprises the steps of defining a transaction from the training terminal, selecting sample training data sets, choosing a data set from the training data sets, defining input and result screens, creating an actual screen representation in accordance with the requirements of the host applications, creating a list of input and output variables, starting the training mode and selecting a starting page from a client device, filling in page data from the client device, transmitting the page data to the first computer, exercising the host applications to obtain needed responses to the page data while storing the sequence of steps for exercising the one or more host applications as a rule set, instructing the first computer to send a response page to the client device while storing additional elements in the rule set, completing a form contained in the response page and sending the completed form to the training terminal, determining if the trainable system is fully trained to complete a business process, and if not, reverting to the step of exercising the one or more host applications, and determining if there are additional selected sample training data sets to process, and if so, reverting to the choosing a data set step. The training session data sets should include normal operating data and exception data to allow the trained system to programmatically correct errors and exceptions within existing applications.  
           [0016]    In a second embodiment, the invention is a trainable system for providing a voice interface to an existing software application, comprising a first computer operating a trainable user interface translator application and adapted to store a shaper rule set, a text-to-speech and speech-to-text interface computer, at least one voice-enabled client device, a vocabulary data storage device, a training terminal, one or more local or remote host computers operating existing host applications thereby generating data streams which may be monitored by the first computer. The first computer transmits data received from the at least one voice-enabled client device via the text-to-speech and speech-to-text interface computer to the one or more host computers and, according to the shaper rule set established during a training session, monitors and reinterprets the data streams present in the existing host applications into updated forms for transmission to the text-to-speech and speech-to-text interface computer, which reformats the updated forms using vocabulary data stored in the vocabulary data storage device for transmission to the at least one voice-enabled client device. The system components may be directly connected, or connected via a network.  
           [0017]    In another aspect, the invention is a method of defining the representation of data on the voice-enabled client device, training the trainable system to operate the existing host applications to insert data to and extract data from one or more host computers, and using the trained system to provide a voice interface to the existing host applications. Employing the apparatus described in the previous paragraph, the method comprises the steps of defining a transaction from the training terminal, selecting sample training data sets, choosing a data set from the training data sets, defining input and output portions, creating a required spoken representation of prompts, valid responses and outputs in accordance with the requirements of the host applications, creating a list of input and output variables and associated vocabulary lists, starting the training mode and requesting a starting prompt from the voice-enabled client device, replying to the prompt via the voice-enabled client device, transmitting the reply to the first computer, exercising the host applications from the training terminal to obtain needed responses to the reply data while storing the sequence of steps for exercising the host applications in the rule set, instructing the first computer to send a response to the voice-enabled client device via the text-to-speech and speech-to-text interface computer which formats the response combining vocabulary data stored on a vocabulary data storage device with prompt and variable data received from the first computer while storing additional elements in the rule set, speaking the sample data via the voice-enabled client device and sending the voice data to the training terminal, determining if the trainable system is fully trained to complete a business process, and if not, reverting to the step of exercising the one or more host applications, and determining if there are additional selected sample training data sets to process and if so, reverting to the choosing a data set step.  
           [0018]    In a third embodiment, the invention is a trainable system for providing an interface to an existing software application via in a different language, comprising a first computer operating a trainable user interface translator application and adapted to store a shaper rule set, an interface computer, at least one client device, a format data storage device, a training terminal, and one or more local or remote host computers operating an existing host application thereby generating data streams which may be monitored by the first computer. The first computer transmits data received from the at least one client device via the interface computer to the one or more host computers and, according to the shaper rule set established during a training session, monitors and reinterprets the data streams present in the existing host applications into updated forms for transmission to the interface computer, which reformats the updated forms using target language data stored in the format data storage device for transmission to the at least one client device.  
           [0019]    In another aspect, the invention is a method of defining the representation of data on the client device, training the trainable system to operate the existing host applications to insert data to and extract data from one or more host computers, and using the trained system to provide an interface to an existing application in another language. Employing the apparatus described in the previous paragraph, the method comprises the steps of defining a transaction from the training terminal and storing transaction data elements in the rule set, selecting sample training data sets in a source language and a target language, choosing a data set from the training data sets, defining input and output screens in accordance with the requirements of the host applications, creating a representation of input and output screens in the target language, creating a list of input and output variables associated with each input and output screens, creating an output data and input data translation vocabulary, starting the training mode and requesting a starting page from the client device, completing with page data a form returned from the interface computer in response to the request for the starting page, transmitting the page data to the first computer, exercising the host applications to obtain needed responses to the page data while storing the sequence of steps for exercising the one or more host applications in the rule set, instructing the first computer to send a response page to the client device while storing additional elements in the rule set, completing a form contained in the response page and sending the completed form to the training terminal, determining if the trainable system is fully trained to complete a business process, and if not, reverting to the step of exercising the one or more host applications, and determining if there are additional selected sample training data sets to process, and if so, reverting to the choosing a data set step. The training session data sets should include normal operating data and exception data to allow the trained system to programmatically correct errors and exceptions within existing applications.  
           [0020]    Each of the embodiments described above have the ability to provide access for users who require information from existing applications but are unable to access them. The present invention can be quickly implemented with a minimal amount of training. It obviates the need to recode existing applications in order to gain increased functionality, and can accommodate changes in the existing host applications. It can utilize the existing error checking and error handling functionality in the existing source applications. In addition, it allows the use of old access methods while accommodating updated access methods, thereby extending the life of existing computer assets. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0021]    [0021]FIG. 1 is a schematic diagram of a first embodiment of the present invention providing an interface to an existing computer application via wired and wireless Internets.  
         [0022]    [0022]FIG. 2 is a flow diagram illustrating a method of defining the representation of data on a client device and training the TeleShaper system to operate an existing application to insert data to and extract data from an existing system via the Internet.  
         [0023]    [0023]FIG. 3 is a flow diagram illustrating a method of using the present invention to operate an existing computer application via the Internet.  
         [0024]    [0024]FIG. 4 is a schematic diagram of a second embodiment of the present invention providing a voice interface to an existing computer program.  
         [0025]    [0025]FIG. 5 is a flow diagram illustrating a method of defining the representation of data on a voice-enabled client device and training the TeleShaper system to operate an existing application to insert data to and extract data from an existing system.  
         [0026]    [0026]FIG. 6 is a flow diagram of a method of using the TeleShaper system to insert data to and extract data from an existing software application via voice.  
         [0027]    [0027]FIG. 7 is a schematic diagram of a third embodiment of the present invention providing an interface to an existing computer program in a different language.  
         [0028]    [0028]FIG. 8 is a flow diagram illustrating a method of defining the representation of data on a client device and training the TeleShaper system to operate an existing software application to insert and extract data from an existing system in another language.  
         [0029]    [0029]FIG. 9 is a flow diagram illustrating a method of using the TeleShaper system to operate an existing software application in another language. 
     
    
     DETAILED DESCRIPTION  
       [0030]    Preferred embodiments of the invention will now be described with reference to the accompanying drawings.  
       First Embodiment: Interface to an Existing Application via Wired and Wired Internets  
       [0031]    In one aspect, the present invention is a system for and method of providing a remote interface to an existing computer application via wired and wireless Internets. The system is able to monitor and reinterpret the data streams present in existing applications and, according to rules established during a training sequence, reformat this data into updated forms, such as HTML, WML, or XML. This reformatted data can then be presented to the user via Internet-enabled devices. Further, when network-enabled, the system has the ability to access multiple data sources and present the contents of these data sources to the user with an updated interface.  
         [0032]    [0032]FIG. 1 is a schematic representation of a TeleShaper system  100 . TeleShaper system  100  includes a TeleShaper computer  130 , one or more host computers  110 , one or more remote hosts  115 , a Web server  145 , a shaper rule set storage device  140 , a format data storage device  155 , one or more client devices  150 , a training terminal  135 , and an optional auxiliary database  175 . Host computer  110  further includes a storage device  105  and host applications  160 . Remote host  115  further includes a remote storage device  120  and remote host applications  165 . TeleShaper computer  130  further includes TeleShaper application  170 . TeleShaper system  100  also includes a network  125 .  
         [0033]    Host computer  110 , remote host  115 , Web server  145 , and training terminal  135  may connect directly to TeleShaper computer  130  or via a network  125 . Network  125  may be a wired or wireless intranet or the Internet. Client device  150  is defined as a client device that is, for example, a PC, cell phone, or PDA, upon which runs a browser application or any rendering program that converts a data stream to visual form. Client device  150  may connect directly to Web server  145  or via network  125 .  
         [0034]    Host applications  160  and remote host applications  165  may be one or more applications. Network  125  may be the same network or may be different networks.  
         [0035]    In an alternate configuration from that shown in FIG. 1, multiple host computers  110  may connect directly to TeleShaper computer  130  or through network  125 . Similarly, multiple remote hosts  115  may connect directly to TeleShaper computer  130  or through network  125 .  
         [0036]    A method of defining the representation of data on the client device  150  and training TeleShaper system  100  to operate existing host applications  160  or remote host applications  165  is now described with reference to FIG. 2.  
         [0037]    Step  201 : Defining transaction  
         [0038]    In this step, the user decides on the details of the transaction to be designed. This includes the client screens to be utilized, the data to be displayed on these screens, the data to be obtained from the user via these screens, and the host application operation associated with these data. Using training terminal  135 , the user then enters into the TeleShaper rule set a list of the pages along with the name of each page&#39;s associated data items. In addition, the static portion of each page is entered onto format data storage device  155  and/or added to the rule set stored.  
         [0039]    Step  202 : Selecting sample data sets  
         [0040]    In this step, the user selects and records a collection of sample input data to be used in subsequent steps. The data should include data sets that result in normal operation of the host application(s) as well as sets that cause the error conditions to be automatically corrected. The data sets may be stored on auxiliary database  175 .  
         [0041]    Step  203 : Choosing a data set  
         [0042]    In this step, the user selects one of the sample data steps defined in step  202  for use in operating the system.  
         [0043]    Step  204 : Defining input and result screens  
         [0044]    In this step, the trainer defines a visual representation of input and result screens. The definition of the input and results screens is in accordance with the requirements of interfacing with host applications  160  or remote host applications  165 . In this step, functionality may also be added or removed from host applications  160  or remote host applications  165 . This step is performed on an abstract level using, for example, drawings, flowcharts, etc.  
         [0045]    Step  205 : Creating actual screen representation  
         [0046]    In this step, the trainer, using training terminal  135 , produces a computer representation of the input and result screens. For example, the trainer may define the HTML computer code using a standard HTML editor. In this step, the trainer creates a new “front end” for the host applications  160  or remote host applications  165 , and may add or remove functionality from those applications.  
         [0047]    Step  206 : Creating a list of input and output variables  
         [0048]    In this step, the trainer, using TeleShaper computer  130 , creates one or more files that lists the input and output variables associated with each input and result screen. At this point, the client interface has been completely defined.  
         [0049]    Step  210 : Starting training mode on training terminal and selecting starting page from client device  
         [0050]    In this step, the trainer, using training terminal  135 , initiates the training mode and then requests the starting page of the newly defined interface using client device  150 . This request is transmitted to Web server  145 , which then returns the starting page to the client device  150 .  
         [0051]    Step  220 : Filling in page  
         [0052]    In this step, the trainer, using client device  150 , fills in the requested information in the starting page.  
         [0053]    Step  230 : Transmitting page data to TeleShaper computer  
         [0054]    In this step, the trainer, using client device  150 , submits the starting page from client device  150 . The data is transmitted to TeleShaper computer  130  via Web server  145 . TeleShaper application  170  then transmits the page data to training terminal  135 . The trainer at training terminal  135  is alerted to the fact this page data has been submitted. This begins the training session.  
         [0055]    Step  240 : Reviewing data and sending data to host computer(s)  
         [0056]    In this step, the trainer, using training terminal  135 , exercises host applications  160  or remote host applications  165 . Using training terminal  135  and TeleShaper application  170 , the trainer operates the host applications  160  or remote host applications  165  to obtain the needed responses to the form submitted in step  230 . The sequence of steps for interacting with these host applications (known as the “rule set” ) is generated by TeleShaper application  170  and stored on shaper rule set storage device  140 .  
         [0057]    Step  250 : Sending response page to client device  
         [0058]    In this step, the trainer, using training terminal  135 , instructs TeleShaper application  170  to send the data and page name to Web server  145 . Web server  145  formats the data using the page selection according to format data stored on format data storage device  155 , and transmits the data and page request to client device  150 . Also in this step, additional elements of the “rule set” are generated by TeleShaper application  170  and stored on shaper rule set storage device  140 .  
         [0059]    Step  260 : Sending sample response data to TeleShaper computer  
         [0060]    In this step, the trainer, using client device  150 , fills the form contained in the page sent in the previous step with sample data and submits the completed form to Web server  145 . Web server  145  transmits the completed form to the TeleShaper application  170 , which transmits the completed form to training terminal  135 .  
         [0061]    Step  270 : Completed business process? 
         [0062]    In this step, the trainer determines if system  100  is fully trained to accommodate the business processes of host applications  160  or remote host applications  165 , where a “business process” is defined as a set of steps necessary to complete an objective, e.g., placing an order, checking status of shipment, filling out a questionnaire. If no, process  200  returns to step  240 ; if yes, process  200  proceeds to step  280 .  
         [0063]    Step  280 : Additional data sets? 
         [0064]    In this step, the trainer determines if there are additional data sets to process within TeleShaper system  100 . If yes, process  200  returns to step  203 ; if no, process  200  ends.  
         [0065]    A method of using TeleShaper system  100  to operate an existing software application via the Internet is now described with reference to FIG. 3. Process  300  presumes that training process  200  has been completed and the results of process  200  have been stored on shaper rule set storage device  140 .  
         [0066]    Step  310 : Requesting starting page  
         [0067]    In this step, the user, using client device  150 , requests the starting page of the transaction. This request is transmitted to Web server  145 , which forwards the request to TeleShaper computer  130 . TeleShaper computer  130  responds with the starting page name and variable data, which are combined with the format data for the selected page stored on the format data storage device  155  by the interface computer. The resulting page is then returned to the client device  150 .  
         [0068]    Step  320 : Filling in form and submitting  
         [0069]    In this step, the user, using client device  150 , fills in the requested information in the starting form and submits the page to TeleShaper application  170  via Web server  145 .  
         [0070]    Step  330 : Accessing host applications  
         [0071]    In this step, in response to the form data, TeleShaper application  170  accesses the host applications  160  or remote host applications  165  using the rule set stored on shaper rule set storage device  140 . In this way, TeleShaper application  170  operates the host application  160  or remote host application  165  to enter data, obtain data, and to respond to exceptions as instructed during the training sequence in process  200 .  
         [0072]    Step  340 : Transmitting variable data  
         [0073]    In this step, TeleShaper application  170  transmits the variable data obtained by interacting with host application  160  and/or remote host application  175  and/or auxiliary storage device  142  and/or calculated internally to Web server  145 .  
         [0074]    Step  350 : Combining variable data with page format data  
         [0075]    In this step, Web server  145  combines the variable data with the format data stored for the selected page on format data storage device  155  to produce a formatted page. This formatted page is transmitted to client device  150 .  
         [0076]    Step  360 : Completed business process? 
         [0077]    In this step, the user determines if there is additional data to process. If no, process  300  returns to step  330 ; if yes, process  300  ends.  
       Second Embodiment: Providing a Voice Interface to an Existing Computer Program  
       [0078]    In another embodiment, the present invention is a system for and method of providing a voice interface to an existing computer program. The system is able to monitor and reinterpret the data streams present in existing applications and, according to rules established during a training sequence, reformat this data into voice-enabled formats. This reformatted data can then be presented to the user via voice-enabled devices like cell phones. Further, when network-enabled, the system has the ability to access multiple data sources simultaneously.  
         [0079]    [0079]FIG. 4 is a schematic representation of a TeleShaper system  400 . TeleShaper system  400  includes a TeleShaper computer  430 , one or more host computers  410 , optionally one or more remote hosts  415 , a text-to-speech and speech-to-text interface computer  445 , a shaper rule set storage device  440 , a vocabulary data storage device  455 , one or more voice-enabled client devices  450 , a training terminal  435 , and an optional auxiliary database  475 . Host computer  410  further includes a storage device  405  and host applications  460 . Remote host  415  further includes a remote storage device  420  and remote host applications  465 . TeleShaper computer  430  further includes TeleShaper application  470 . TeleShaper system  400  also includes a network  425 .  
         [0080]    Host computer  410 , remote host  415 , text-to-speech and speech-to-text interface computer  445 , and training terminal  435  may connect directly to TeleShaper computer  430  or via a network  425 . Network  425  may be an intranet or the Internet. Voice-enabled client device  450  is a device like a cell phone. Text-to-speech and speech-to-text interface computer  445  is defined as a computer upon which runs an application capable of converting a text data stream to audible form or an audio data stream to text form. Voice-enabled client device  450  may connect directly to text-to-speech and speech-to-text interface computer  445  or via network  425 .  
         [0081]    Vocabulary data storage device  455  contains a pre-defined and pre-recorded fixed portion of messages sent to voice-enabled client device  450 . For example, in reporting a stock quote, the fixed portion of the message may be “The price of the requested stock is . . . ” The variable portion of the message is the actual stock price retrieved via host application  460  or remote host application  465 .  
         [0082]    Text-to-speech and speech-to-text interface computer  445  employs commercially available text-to-speech technology to convert text received from TeleShaper application  470 . Text-to-speech and speech-to-text interface computer  445  combines the variable portion of the text from host applications  460  or remote host applications  465  with stored fixed prompts from vocabulary data storage device  455  and converts this text to speech data. This data is then transmitted to voice-enabled client device  450 . Also, text-to-speech and speech-to-text interface computer  445  converts the user&#39;s speech to text using commercially available voice systems (e.g., Dragon NaturallySpeaking, Free Speech 5000, etc.). Text-to-speech and speech-to-text interface computer  445  transmits this converted text to TeleShaper application  470 , which transmits it to host applications  460  or remote host applications  465  as an input. Alternatively, the user may input data through a keypad on voice-enabled client device  450 . Text-to-speech and speech-to-text interface computer  445  is capable of processing this non-voice signal as an input.  
         [0083]    Voice-enabled client device  450  is a device that digitizes voice signals, e.g., a digital cellular phone. Alternatively, the voice capability embodied in text-to-speech and speech-to-text interface computer  445  may reside on voice-enabled client device  450 .  
         [0084]    In an alternative configuration from that shown in FIG. 4, multiple host computers  410  may connect directly to TeleShaper computer  430  or through network  425 . Similarly, multiple remote hosts  415  may connect directly to TeleShaper computer  430  or through network  425 . Also, host applications  460  and remote host applications  465  may be one or more applications. Network  425  may be one network or may comprise multiple networks.  
         [0085]    A method of defining the representation of data on the voice-enabled client device  450  and of training TeleShaper system  400  to operate existing host applications  460  or remote host applications  465  is now described with reference to FIG. 5.  
         [0086]    Step  501 : Defining transaction  
         [0087]    In this step, the user decides on the details of the transaction to be defined. This includes breaking the transaction into a collection of “conversations” , e.g., voice prompts (possibly including host result data) and the possible replies to be obtained from the user via client device  450 , and the host application operation associated with these data. Using training terminal  435 , the user then enters into the TeleShaper “rule set” the list of these conversations along with the name of each conversation&#39;s associated data items. The rule set is defined as the sequence of steps necessary for interacting with the host applications. In addition, the static portion of each conversation&#39;s prompt is entered in vocabulary data storage device  455  and/or added to the rule set stored.  
         [0088]    Step  502 : Selecting sample data sets  
         [0089]    In this step, the user selects and records a collection of sample input data sets to be used in subsequent steps. The data sets should include data sets that result in normal operation of the host application(s) as well as data sets that cause the error conditions to be automatically corrected. The data sets may be stored on auxiliary database  475 .  
         [0090]    Step  503 : Choosing a data set  
         [0091]    In this step, the user selects one of the sample data sets defined in step  502  for use in operating the system.  
         [0092]    Step  504 : Defining input and output portions  
         [0093]    In this step, the trainer defines prompts for inputs and valid responses therefore, and fixed and variable portions of spoken outputs messages. The input and output messages are defined in accordance with the requirements of interfacing with host applications  460  or remote host applications  465 . In this step, functionality may be added to or removed from host applications  460  or remote host applications  465 . This step is performed on an abstract level using, for example, drawings, flowcharts, diagrams, etc.  
         [0094]    Step  505 : Creating required spoken representation of prompts, valid responses, and outputs  
         [0095]    In this step, the trainer, using training terminal  435  and a speech recording apparatus, produces a spoken representation of the prompts, responses, and outputs. In this step, the trainer is creating a spoken “front end” for the host applications  460  or remote host applications  465  and, in doing so, may add or remove functionality from those applications.  
         [0096]    Step  506 : Creating a list of the input and output variables, and associated vocabulary lists  
         [0097]    In this step, the trainer, using TeleShaper computer  430 , creates one or more files that lists input and output variables associated with each conversation. In addition to defining the input and output variables communicated between TeleShaper application  430  and text-to-speech and speech-to-text interface computer  445 , a limited input vocabulary is defined in this step to facilitate the voice recognition software. With the completion of this step, the client interface is fully defined.  
         [0098]    Step  510 : Requesting starting prompt  
         [0099]    In this step, the trainer, using client device  450 , requests, e.g., by text, by speech, or by dialing an access number, the starting prompt from text-to-speech and speech-to-text interface computer  445 , which then speaks the starting prompt to client device  450 .  
         [0100]    Step  520 : Replying to prompt  
         [0101]    In this step, the trainer, using client device  450 , speaks the requested information.  
         [0102]    Step  530 : Transmitting response to TeleShaper computer  
         [0103]    In this step, text-to-speech and speech-to-text interface computer  445  converts the voice response from client device  450  to textual data. This data is then transmitted to TeleShaper computer  430 . TeleShaper application  470  accumulates the response data and, as appropriate, transmits this data to training terminal  435 . The trainer at training terminal  435  is alerted to the fact that this conversation data has been submitted. This begins the training session.  
         [0104]    Step  540 : Reviewing data and sending data to host computer(s)  
         [0105]    In this step, the trainer, using training terminal  435 , exercises host applications  460  or remote host applications  465 . Using training terminal  435  and TeleShaper application  470 , the trainer operates the host applications  460  or remote host applications  465  to obtain the needed responses to the data submitted in step  530 . This rule set is generated by TeleShaper application  470  and stored on shaper rule set storage device  440 .  
         [0106]    Step  550 : Sending response to client device  
         [0107]    In this step, the trainer, using training terminal  435 , instructs TeleShaper application  470  to send the data and the conversation&#39;s name to text-to-speech and speech-to-text interface computer  445 . Text-to-speech and speech-to-text interface computer  445  combines the data with the fixed portion of the selected conversation&#39;s prompt according to vocabulary data stored on vocabulary data storage device  455  and speaks the result to voice-enabled client device  450 . Also, in this step, additional elements of the “rule set” are generated by TeleShaper application  470  and stored on shaper rule set storage device  440 .  
         [0108]    Step  560 : Sending sample response data to TeleShaper computer  
         [0109]    In this step, the trainer, using voice-enabled client device  450 , speaks the sample data and submits the data to text-to-speech and speech-to-text interface computer  445 . Text-to-speech and speech-to-text interface computer  445  transmits the data to the TeleShaper application  470 , which then transmits the data to training terminal  435 .  
         [0110]    Step  570 : Completed business process? 
         [0111]    In this step, the trainer determines if system  400  is fully trained to accommodate the business processes of host applications  460  or remote host applications  465 , where a “business process” is defined as a set of steps necessary to complete an objective, e.g., placing an order, checking status of shipment, filling out a questionnaire. If no, process  500  returns to step  540 ; if yes, process  500  proceeds to step  580 .  
         [0112]    Step  580 : Additional data sets? 
         [0113]    In this step, the trainer determines if there are additional data sets to process within TeleShaper system  400 . If yes, process  500  returns to step  503 ; if no, process  500  ends.  
         [0114]    A method of using system  400  to insert data to and extract data from an existing software application via a voice interface is now described with reference to FIG. 6. Process  600  presumes that training process  500  has been completed and that the results of process  500  have been stored on shaper rule set storage device  440 .  
         [0115]    Step  610 : Requesting starting prompt  
         [0116]    In this step, the user, using client device  450 , requests the starting prompt of the transaction. This request is transmitted to text-to-speech and speech-to-text interface computer  445 , which forwards the request to TeleShaper computer  430 . TeleShaper computer  430  responds with the starting conversation name and variable data, which are combined with the vocabulary data for the selected conversation stored on the vocabulary data storage device  455  by the text-to-speech and speech-to-text interface computer  445 , converted to speech, and transmitted to the client device  450 .  
         [0117]    Step  620 : Replying to prompts  
         [0118]    In this step, the user, using voice-enabled client device  450 , speaks the information requested by the starting prompt thereby submitting response data to TeleShaper application  470  via text-to-speech and speech-to-text interface computer  445 .  
         [0119]    Step  630 : Accessing host applications  
         [0120]    In this step, in response to the response data, TeleShaper application  470  accesses the host applications  460  or remote host applications  465  using the rule set stored on shaper rule set storage device  440 . In this way, TeleShaper application  470  operates the host application  460  or remote host application  465  to enter data, obtain data, and to respond to exceptions as instructed during the training sequence in process  500 .  
         [0121]    Step  640 : Transmitting variable data  
         [0122]    In this step, TeleShaper application  470  transmits variable data to text-to-speech and speech-to-text interface computer  445 . This variable data is obtained by the TeleShaper application  470  interacting with host application  460 , remote host application  475 , or auxiliary storage device  142 .  
         [0123]    Step  650 : Combining variable data with requested fixed data  
         [0124]    In this step, text-to-speech and speech-to-text interface computer  445  combines the variable data with the fixed data for the requested conversation stored on vocabulary data storage device  455  to produce a spoken message. This spoken message is transmitted to voice-enabled client device  450 .  
         [0125]    Step  660 : Completed business process? 
         [0126]    In this step, the user determines if there is additional data to process. If yes, process  600  returns to step  630 ; if no, process  600  ends.  
       Third Embodiment: Providing an Interface to an Existing Computer Program in a Different Language  
       [0127]    In yet another aspect, the present invention is a system for and method of providing an interface to an existing computer application in a different language. The system is able to monitor and reinterpret the data streams present in existing applications and, according to rules established during a training sequence, reformat this data into a different language and different format according to cultural conventions. When network-enabled, the system has the ability to access multiple data sources and present the contents of these data sources to the user with an updated interface.  
         [0128]    [0128]FIG. 7 is a schematic representation of a TeleShaper system  700 . TeleShaper system  700  includes a TeleShaper computer  730 , one or more host computers  710 , optionally one or more remote hosts  715 , an interface computer  745 , a shaper rule set storage device  740 , a format data storage device  755 , one or more client devices  750 , a training terminal  735 , and an optional auxiliary database  775 . Host computer  710  further includes a storage device  705  and host applications  760 . Remote host  715  further includes a remote storage device  720  and remote host applications  765 . TeleShaper computer  730  further includes TeleShaper application  770 . TeleShaper system  700  also includes a network  725 .  
         [0129]    Host computer  710 , remote host  715 , interface computer  745 , and training terminal  735  may connect directly to TeleShaper computer  730  or via a network  725 . Network  725  may be an intranet or the Internet. Client device  750  may connect directly to interface computer  745  or via network  725 .  
         [0130]    Host applications  760  and remote host applications  765  may be one or more applications. Network  725  may be the same network or may be multiple networks.  
         [0131]    In an alternate configuration from that shown in FIG. 7, multiple host computers  710  may connect directly to TeleShaper computer  730  or through network  725 . Similarly, multiple remote hosts  715  may connect directly to TeleShaper computer  730  or through network  725 .  
         [0132]    A method of defining the representation of data on the client device  750  and of training TeleShaper system  700  to operate existing host applications  760  or remote host applications  765  in another language is now described with reference to FIG. 8.  
         [0133]    Step  801 : Defining transaction  
         [0134]    In this step, the user decides on the details of the transaction to be defined. This includes the client screens to be utilized, the data to be displayed on these screens, the data to be obtained from the user via these screens, and the host application operation associated with these data. Using training terminal  735 , the user then enters into the TeleShaper “rule set” a list of pages along with the name of each page&#39;s associated data items. The rule set is defined as the sequence of steps necessary for interacting with the host applications. In addition, the static portion of each page is stored in format data storage device  755  and/or added to the rule set.  
         [0135]    Step  802 : Selecting sample data sets  
         [0136]    In this step, the user selects and records a collection of sample input data sets in both the source and target languages to be used in subsequent steps. The data sets should include data sets that result in normal operation of the host application(s) as well as data sets that cause the error conditions that are to be automatically corrected. The data sets may be stored on auxiliary database  775 .  
         [0137]    Step  803 : Choosing a data set  
         [0138]    In this step, the user selects one of the sample data sets defined in step  802  for use in operating the system.  
         [0139]    Step  804 : Defining input and output screens in the target language  
         [0140]    In this step, the trainer defines a visual representation of input and output screens in the target language. The definition of the input and output screens is in accordance with the requirements of interfacing with host applications  760  or remote host applications  765 . In this step, functionality may also be added to or removed from host applications  760  or remote host applications  765 . This step is performed on an abstract level using, for example, drawings, flowcharts, etc.  
         [0141]    Step  805 : Creating actual screen representation in the target language  
         [0142]    In this step, the trainer, using training terminal  735 , produces a computer representation of the input and output screens in the target language. In this step, the trainer creates a new “front end” for the host applications  760  or remote host applications  765 , and may add or remove functionality from those applications.  
         [0143]    Step  806 : Creating a list of input and output variables  
         [0144]    In this step, the trainer, using TeleShaper computer  730 , creates one or more files that list the input and output variables associated with each input and output screen. At this point, the client interface has been completely defined.  
         [0145]    Step  808 : Creating an output data translation vocabulary  
         [0146]    In this step, the trainer, using TeleShaper computer  730 , creates a translation vocabulary for the source language into the target language for the output data.  
         [0147]    Step  809 : Creating an input data translation vocabulary  
         [0148]    In this step, the trainer, using TeleShaper computer  730 , creates a translation vocabulary for the target language into the source language for the input data.  
         [0149]    Step  810 : Starting training mode on training terminal and selecting starting page from client device  
         [0150]    In this step, the trainer, using training terminal  735 , initiates the training mode and requests the starting page of the newly defined interface from client device  750 . This request is transmitted to interface computer  745 , which then returns the starting page to the client device  750 .  
         [0151]    Step  820 : Filling in page  
         [0152]    In this step, the trainer, using client device  750 , fills in the requested information in the starting page.  
         [0153]    Step  830 : Transmitting page data to TeleShaper computer  
         [0154]    In this step, the trainer, using client device  750 , submits the starting page from client device  750 . The data is transmitted to TeleShaper computer  730  via interface computer  745 . TeleShaper application  770  then transmits the page data to training terminal  735 . The trainer at training terminal  735  is alerted to the fact that this page data has been submitted. This begins the training session.  
         [0155]    Step  840 : Reviewing data and sending data to host computer(s)  
         [0156]    In this step, the trainer, using training terminal  735 , exercises host applications  760  or remote host applications  765 . Using training terminal  735  and TeleShaper application  770 , the trainer operates the host applications  760  or remote host applications  765  to obtain the needed responses to the form submitted in step  230 . This rule set is generated by TeleShaper application  770  and stored on shaper rule set storage device  740 .  
         [0157]    Step  850 : Sending response page to client device  
         [0158]    In this step, the trainer, using training terminal  735 , instructs TeleShaper application  770  to send the data and the response page selection to interface computer  745 . Interface computer  745  formats the data and according to the page selection based on the format data stored on format data storage device  755 , and transmits the data and page request to client device  750 . Also in this step, additional elements of the “rule set” are generated by TeleShaper application  770  and stored on shaper rule set storage device  740 .  
         [0159]    Step  860 : Sending sample response data to TeleShaper computer  
         [0160]    In this step, the trainer, using client device  750 , fills the test form with sample data and submits the completed form to interface computer  745 . Interface computer  745  transmits the completed form to the TeleShaper application  770 , which then transmits the completed form to training terminal  735 .  
         [0161]    Step  870 : Completed business process? 
         [0162]    In this step, the trainer determines if system  700  is fully trained to accommodate the business processes of host applications  760  or remote host applications  765 , where a “business process” is defined as a set of steps necessary to complete an objective, e.g., placing an order, checking status of shipment, filling out a questionnaire. If no, process  800  returns to step  840 ; if yes, process  800  proceeds to step  880 .  
         [0163]    Step  880 : Additional data sets? 
         [0164]    In this step, the trainer determines if there are additional data sets to process within TeleShaper system  700 . If yes, process  800  returns to step  803 ; if no, process  800  ends.  
         [0165]    A method of using TeleShaper system  700  to operate an existing software application in another language is now described with reference to FIG. 9. Process  900  presumes that training process  800  has been completed and that the results of process  800  have been stored on shaper rule set storage device  740 .  
         [0166]    Step  910 : Requesting starting page  
         [0167]    In this step, the user, using client device  750 , requests the starting page of the transaction in the target language. This request is transmitted to interface computer  745 , which translates the data to the source language and forwards the request to TeleShaper computer  730 . TeleShaper computer  730  responds with the starting page name and variable data, which are combined with the format data for the selected page stored on the format data storage device  755  by the interface computer. The resulting page is then returned to the client device  750  in the target language.  
         [0168]    Step  920 : Filling in page and submitting  
         [0169]    In this step, the user, using client device  750  and working in the target language, fills in the requested information in the starting page and submits the page to TeleShaper application  770  via interface computer  745 .  
         [0170]    Step  930 : Accessing host applications  
         [0171]    In this step, in response to the form data, TeleShaper application  770  accesses the host applications  760  or remote host applications  765  in the source language using the rule set stored on shaper rule set storage device  740 . In this way, TeleShaper application  770  operates the host application  760  or remote host application  765  to enter data, obtain data, and to respond to exceptions as instructed during the training sequence in process  800 .  
         [0172]    Step  940 : Transmitting variable data  
         [0173]    In this step, TeleShaper application  770  transmits variable data to interface computer  745 . This variable data is obtained by the TeleShaper application  770  interacting with host application  760 , remote host application  775 , or auxiliary storage device  705 .  
         [0174]    Step  950 : Combining variable data with page format data  
         [0175]    In this step, interface computer  745  combines the variable data with the page format data stored on format data storage device  755  to produce a page formatted to cultural conventions. This formatted page is transmitted to client device  750  in the target language.  
         [0176]    Step  960 : Completed business process? 
         [0177]    In this step, the user determines if there is additional data to process. If yes, process  900  returns to step  930 ; if no, process  900  ends.  
         [0178]    Other embodiments of the invention will be apparent to those skilled in the art from a consideration of the specification or practice of the invention disclosed herein. It is intended that the specification and examples be considered as exemplary only, with the true scope and spirit of the invention being indicated by the following claims.