Patent Document

CROSS REFERENCE TO RELATED APPLICATIONS 
       [0001]    This application is a continuation of and claims the benefit of U.S. application Ser. No. 12/959,707 having a filing date of Dec. 3, 2010, which is expressly incorporated by reference herein in its entirety. 
     
    
     FIELD OF INVENTION 
       [0002]    The present invention relates generally to peripheral devices for computing systems. In particular, the invention relates to a system and method for managing the profile of peripheral devices for user-interfaces of computing systems. 
       BACKGROUND 
       [0003]    In most computer games, speed and accuracy are often of significant importance to gamers. Familiarity with gaming control configurations will therefore determine how one performs in the game. Typically, frequent gamers have a specific set of customised device configurations uniquely suited for their game play. For example, to initiate a punch or to engage a weapon, gamers are able to re-assign combinations of keys on the keyboard or on the mouse to initiate different UI control. Gamers often do not break away from this set of configuration as it allows them familiarity and hence speed and control during gaming. 
         [0004]    Some of these gamers are even equipped with their own preferred peripheral devices. Computer peripheral devices include but are not limited to computer mice, keyboards, handheld gaming consoles and joysticks. Known computer peripheral devices are typically interchangeable and can be used with different computer systems and platforms. Most computer operating systems are able to automatically configure the coupled computer peripheral device for use with the computer operating system without the need for installation of a specific driver. However, when these peripheral devices are detected by the computing system, a generic UI control configuration is often assigned to them and whatever customised settings previously configured by the user will be lost and replaced with default settings. This poses much inconvenience and hassle to garners when they enter LAN-gaming shops or utilise computers for their gaming pleasures as they would have to reconfigure the control settings to suit their preferences. 
         [0005]    There is, therefore, an apparent need for a method whereby these device settings and configurations can be stored and retrieved on the fly so that users can do away with the hassle of re-configuring their control settings whenever they use a different platform to access the different peripheral devices. 
       SUMMARY 
       [0006]    In accordance with a first aspect of the invention, there is disclosed a profile management method comprising receiving client data provided by a computing system, with the client data comprising device data being descriptive of a user-interface (UI) in signal communication with the computing system, and associating one of a plurality of device profiles with the device data, each of the plurality of device profiles having configuration data associated therewith. The device data is further descriptive of the user interactions identifiable by the UI. The profile management system further comprises providing the configuration data associated with the one of the plurality of device profiles to the computing system for configuring operation of the UI with the computing system therewith. 
         [0007]    In accordance with a second aspect of the invention, there is disclosed a profile management system comprising a controller module for receiving client data provided by a computing system. The client data comprises device data being descriptive of a user-interface (UI) in signal communication with the computing system. The device data is further descriptive of the user interactions identifiable by the UI. The profile management system further comprises a storage module having stored thereon a plurality of device profiles, each of the plurality of device profiles having configuration data associated therewith, and a processor module for associating one of a plurality of device profiles stored on the storage module with the device data. The configuration data associated with the one of the plurality of device profiles is providable by the controller module to the computing system for configuring operation of the UI with the computing system therewith. 
         [0008]    In accordance with a third aspect of the invention, there is disclosed a machine readable medium having stored therein a plurality of programming instructions, which when executed, the instructions cause the machine to: receive client data provided by a computing system, the client data comprising device data being descriptive of a user-interface (UI) in signal communication with the computing system, the device data being further descriptive of the user interactions identifiable by the UI; associate one of a plurality of device profiles with the device data, each of the plurality of device profiles having configuration data associated therewith; and provide the configuration data associated with the one of the plurality of device profiles to the computing system for configuring operation of the UI with the computing system therewith. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0009]      FIG. 1  shows a system diagram of a profile management system residing on a computing cloud according to an exemplary embodiment of the invention; 
           [0010]      FIG. 2  shows a system diagram of the profile management system of  FIG. 1  with user-interfaces in signal communication with computing systems coupled thereto; 
           [0011]      FIG. 3  shows a process flow diagram of a profile management method for implementation by the collaboration management system of  FIG. 1 ; 
           [0012]      FIG. 4  shows a process flow diagram of a device discovery method for implementation by the computing systems of  FIG. 2 ; and 
           [0013]      FIG. 5  shows an arrangement of device profile, configuration data, user identifier and authentication data residing on the profile management system of  FIG. 1 . 
       
    
    
     DETAILED DESCRIPTION 
       [0014]    Reference will now be made in detail to an exemplary embodiment of the present invention, examples of which are illustrated in the accompanying drawings. While the invention will be described in conjunction with the embodiment, it will be understood that they are not intended to limit the invention to these embodiments. On the contrary, the invention is intended to cover alternatives, modifications and equivalents, which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in the following detailed description of embodiments of the present invention, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be recognized by one of ordinary skill in the art that the present invention may be practiced without these specific details. In other instances, well-known methods, procedures, components, and circuits have not been described in detail as not to unnecessarily obscure aspects of the embodiments of the present invention 
         [0015]    For purposes of brevity and clarity, descriptions of embodiments of the present invention are limited hereinafter to the transfer and management of device profiles, in particular, device configurations, to client device associated with the computing system. This however does not preclude embodiments of the invention where fundamental principals prevalent among the various embodiments of the invention such as operational, functional or performance characteristics are required. 
         [0016]    An exemplary embodiment of the invention, a profile management method  100 , is described hereinafter. The profile management method  100  is preferably for managing configuration of user interfaces (UI)  18  coupled to computing system  20  in communication with a computing cloud  22 . Further described, with reference to  FIGS. 1 to 6 , is a profile management system  24 , residing on the computing cloud  22 , for applying the profile management method  100 . 
         [0017]    Generally, the profile management system  24  enables a configuration for UIs  18  to be created by a user so that the configuration can be readily accessed from different locations or from different computer terminals when the same or similar type of UI  18  is used. For example, when a user carries a personal mouse from location to location, the user does not have to reconfigure the mouse at each new location or at a new computer terminal. The configuration for the UI  18 , including the preferred settings therefore, are downloadable via the computer terminal the UI  18  is coupled to. This even applies to newly acquired devices where the UI  18  thereof can be configured for use “out of the box” via downloading the corresponding configuration previously created by a user, a third party, the device manufacturer or an application developer, for example, a gaming application. The configurations for the Uls  18  are preferably stored on one or more servers with each configuration catering to a specific, or similar, UI type and relating to a specific user identified by a user identifier. Download of the configuration can be initiated via various means including by the coupling of the UI  18  to a computer system, connecting to a specific network address, for example an IP address or a URL, launching of a particular application or game application or through operating of controls within an application. Preferably, information on the UI type is providable to the one or more server so that the configuration corresponding to the UI type, and preferably further corresponding to a particular user ID, can be identified for download and subsequent configuration of the corresponding UI  18 . 
         [0018]    With reference to  FIGS. 1 to 5 , the computing cloud  22  comprises one or multiple server systems  26  inter-networked and configured to function as the profile management system  24 . Communication pathway between the computing cloud  22  and the computing system  20  is preferably provided via a local area network (LAN), a wide area network (WAN), the Internet, cellular networks, data networks, dedicated networks or a combination of any thereof. 
         [0019]    The profile management system  24  comprises a controller module  28  for receiving client data  29  provided by the computing system  20 , a storage module  30  for storing a plurality of device profiles  31  and a processor module  32 . The client data  29  comprises device data  34  for associating with one of the plurality of the device profiles  31  by the processor module  32 . 
         [0020]    The profile management method  100  comprises a step  102  of receiving the client data  29  providable by the computing system  20  by the profile management system  24 , a step  104  of associating one of the plurality of device profiles  31  within the profile management system  24  with the client data  29  and a step  106  of providing configuration data  36  associated with one of the plurality of device profiles  31  to the computing system  20  for configuration of the UI  18  thereafter. 
         [0021]    The device data  34  is preferably descriptive of the UI  18  associated with the computing system  20 . The device data  34  is further descriptive of the user interactions identifiable by the UI  18 . Preferably, the UI  18  is one of a computer peripheral coupled with an interface formed integral with the computing device. Examples of computer peripherals include but are not limited to gaming console, joystick, computer mouse, keyboard and speakers. Alternatively, the UI  18  includes devices which are connectable for use with or forms part of the computing system  20 , for example, the touch screen display of a cell phone or a smart phone with the non-UI portions of the cell phone or smart phone forming the computing system  20 . The UI  18  is preferably at least one of actuation, for example mouse button actuation or key presses, touch, light, sound, motion and position sensing. Detection and recognition of the UI  18 , or its functional equivalent, occurs when the UI  18  is in signal communication with the computing system  20 . The computing system  20  generates the device data  34  for the UI  18  when the UI  18  is recognised thereby. For example, if the UI  18  is a 3D mouse, the user interactions identifiable by the 3D mouse would include free-space movement or position, scrolling actions and actuation of specific buttons existing on the 3D mouse. However, if the UI  18  is a multi-touch interface, the user interactions identifiable by the multi-touch interface would include locations of one or more points and gestures generatable by the one or more touch points on the multi-touch interface. Therefore, the user interactions identifiable and hence the device data when the UI  18  is a 3D mouse differs from when the UI  18  is a multi-touch interface. 
         [0022]    When a user couples the UI  18  to the computing system  20  in network communication to the computing cloud  22 , the profile management system  24  is able to receive the client data  29  generated by the computing system  20 . The UI  18  may be connected to the computing system  20  via wired or wireless signal connection. Detection of the UI  18  can be configured by the user to be in response to coupling of the UI  18  to the computing system  20  or to be effected by the user by executing a routine or application on the computing system. Application programming interfaces (APIs) or components of software development kits (SDKs) is preferably made available for programmers, game developers and application developers to incorporate the function of detecting the UI  18  onto their computing systems  20  and software applications. This will provide the user with better control over how and when the UI  18  is to be detected for discovery and sending of the client data  29  to the profile management system  24 . The APIs and components of SDKs may be provided for development of auto-executable routines residing on the UI  18  for initiating the profile management method  100  upon detection thereof by the computing system  20  when the UI  18  is coupled thereto. In such an instance, the device data  34  specific to the UI  18  may be pre-defined and preloaded onto the UI  18 , preferably, onto a memory module residing on the UI  18 . 
         [0023]    Preferably, the client data  29  further comprises identifier data  38  uniquely matched to at least one of a plurality of user identifiers  40  residing on the storage module  30 . Upon receiving of the client data  29  by the profile management system  24  in the step  102 , the profile management system  24  further processes the client data  29  for either user registration or log-on to the profile management system  24 . For an existing user with an identity existing as one of the plurality of user identifiers  40  on the storage module  30 , access to the profile management system  24  triggers the processor module  32  to associate the particular one of the user identifiers  40  with the identifier data  38 . Upon associating the one of the user identifiers  40  with the identifier data  38 , the one of the device profiles  31  and the configuration data  36  corresponding thereto are consequently identified. As an alternative over the identifier data  38  or in the absence of the identifier data  38 , the device data  34  may be used for identifying the corresponding one of the de vice profiles  31  and the corresponding configuration data  36 . In an event where none of the device profiles  31  exactly matches the device data  38 , a closest matching one of the device profiles  31  may be selected instead. The controller module  28  can be configured to select a closest matching one of all the device profiles  31  on the storage module  30  or a closest matching one of only the device profiles  31  associated with a particular one of the user identifiers  40 . 
         [0024]    In an example of use of the profile management system  24 , a user couples his multi-touch device, the UI  18 , to a public computer, the computing system  20 . One or both of the multi-touch device and the public computer may be pre-loaded with a sub-routine to automatically connect to the profile management system  24  for initiating the profile management method  100 . Alternatively, the user can manually connect with the profile management system  24 , for example, via a URL using a web browser. Once the profile management method  100  has been initiated, the multi-touch device will send information, the client data  19 , to the profile management system  24  indicating that it is of a multi-touch device type, the device data  34 . The sent information can include the user&#39;s name or a user identifier, the identifier data  38 . On the profile management system  24 , the user identifier  40  matching with the user&#39;s name may have multiple device profiles  31  associated therewith, for example various types of devices including a  3 -D mouse, a specific model of gaming mouse and a multi-touch device. With the sent information indicating that the multi-touch device is of a multi-touch device type, the profile management system  24  can isolate the corresponding one of the multiple device profiles  31  for extracting the configuration data  36  corresponding  36  thereto. The configuration data  36  can include, for the multi-touch device, a library of gestures and corresponding instructions for download to the public computer for configuring use of the multi-touch device with the public computer. Upon the multi-touch device being configured with the public computer, the user can immediately interact with the multi-touch device to generate instructions with gestures the user is familiar with without having to redefine gestures and corresponding instructions. 
         [0025]    In another example of use of the profile management system  24 , the multi-touch device is a newly acquired device connectable to the profile management system  24 , via the user&#39;s personal computer, the computing system  20 , for locating and downloading a popular gesture library or a library of gesture provided by the manufacturers of the multi-touch device, the configuration data  36  for use in configuring the multi-touch device with the user&#39;s personal computer. In yet another example of use of the profile management system  24 , the UI  18  is a gaming mouse for use with a public computer, the computing system  20 . A user with his preferred settings, the configuration data  36 , stored on the profile management system  24  is able to connect the public computer to the profile management system  24  for downloading the configuration data  36  to the public computer. The configuration data for the gaming mouse could include one or more of button configuration, scroll-wheel and mouse displacement sensitivity and lighting or haptic feedback response to the gaming mouse. The availability of the configuration data  36  on the profile management system  24  allows the user to quickly configure the gaming mouse, or other UIs  18 , when using the public computer. 
         [0026]    For retrieval of configuration data  36  from the profile management system  24  in the step  104 , the user may either log-on to the profile management system  24  to retrieve stored configuration data  36  accessible to the public or choose to retrieve device data previously uploaded to the profile management system  24  associated with the user identifier  40  belonging to the user. Download of the configuration data  36  by other users is preferably determined by permission settings associated with the configuration data  36 . Upon receiving client data  29  by the controller module  28 , the profile management system  24  may initiate automated download of the configuration data  36  associated with the device profile  31  matching with the device data  34  of the provided client data  29  in the step  106 . 
         [0027]    Preferably, the step  102  of receiving client data  29  comprises a step  108  of receiving authentication information (unreferenced) from the computing system  20 , for example a password provided by a user, to authenticate the identifier data  34  using the authentication data  42  corresponding thereto. Preferably, the profile management system  24  is configured such that the configuration data  36  in association with the identified one of the device profiles  31  will only be provided by the controller module  28  to the computing system  20  in the step  106  when the identifier data  34  is authenticated. Preferably, the configuration data  36  substantially defines interactions between the UI  18  and at least one of an application and an operating platform operating on the computing system  20 . In gaming applications, the configuration data  36  can be a single or a permutation of a plurality of keys on the keyboard for game control such as to engage a weapon or to cast a spell. In non-gaming applications, configuration data can include voice activated commands or gestures to manipulate UI  18  on touch interfaces. 
         [0028]    When there exists a mismatch of operating platforms supported by the computing system  20  and which the stored configuration data operates on, the step  106  comprises a step  112  of processing the configuration data  36  for compliance with an operating platform so that the configuration data  36  downloadable from the profile management system  24  can be correctly recognised and configured for operation of the UI  18  with the computing system  20 . The operating platform is definable by platform data (unreferenced) constituting a portion of the client data  29  generatable by the computing system  20  for provision to the profile management system  24 . 
         [0029]    Complementary to and in association with the profile management method  100 , there exists a device discovery method  116  configurable by the user for edited of data on the profile management system  24 . The device discovery method  116  is preferably applied by the computing system  20 . The device discovery method  116  comprises a step  124  of providing client data  29  for log-on to the profile management system  24  and a step  126  of uploading the device data  34  to the profile management system  24 . 
         [0030]    The step  124  further comprises at least one of a step  132  for detecting coupling of the UI  18  to the computing system  20 , a step  134  for manually keying in of identifier data  38  to effect log-on to the profile management system  24  and a step  136  for registering a new user identifier  40  with the profile management system  24 . Preferably in the step  132 , the computing system  20  detects signal communication of the UI  18  with and generates the client data to effect an automated log-on to the profile management system  24  by associating the identifier data  38  with one of the device profiles  31 . Alternatively, the user may configure settings of the device discovery method  116  such that a log-on prompt will be initiated for requesting provision of the identifier data  38  upon the computing system  20  detecting signal communication of the UI  18  therewith. The user will then be required to manually key-in the identifier data  38  in the step  134  for access to the profile management system  24 . In the step  136 , a new user may register with the profile management system  24  by following through with a registration process. The registration process may request the new user to either manually key-in new identifier data  38  to be stored on the storage module  30  as one of the user identifiers  40  or couple a new device to the computing system  20  for extraction of the identifier data  38  therefrom. 
         [0031]    In the step  126 , a user may define and upload new client data  24  onto the storage module  30  in the profile management system  24  under one of the user identifiers  40 . The device data  34  in association with the client data  29  will be stored in the profile management system  24  as one of the device profiles  31 . The configuration data  36  for new UI settings and configuration will also be uploaded for storage by the profile management system  24  and will be registered as being associated with the newly created one of the device profiles  31 . Preferably, the profile management system  24  allows for subsequent editing of the configuration data  36  after being uploaded to the storage module  30 . 
         [0032]    In the gaming context, for gamers who are always on the move, their preferred settings configurations for computer peripherals, either general settings or game-specific settings, are made storable and accessible through a multitude of devices and platforms. In LAN-gaming shops or at any public access terminal, garners have their preferred settings configurations on the fly and downloadable via the profile management system  24  to any terminal or platform in network communication thereto. Users with new gaming devices can also utilise the profile management system  24  to obtain a set of basic setting configuration for the UI  18  without having to manually configure control for any possible manipulation of the UI  18 . Update or modification of setting configurations from any computing system  20  in network communication with the profile management system  24  is also an available option. 
         [0033]    Additionally, the profile management system  24  is able to process usage information and data stored in the storage module  30  for a variety of applications, including data analytics, and for access by users or third parties. The storage module  30  is preferably accessible by a third party. The third party includes, for example, a games developer, an advertiser or a network service provider. In addition, knowledge of the configuration preferences of users, in particular garners, will enable game developers to design products that will better satisfy consumers. 
         [0034]    In a non-gaming context, for example, when a user connects a multi-touch screen smart phone to profile management system  24  on the computing cloud  22 , or when voice command memos are being downloaded from the cell phone to the computing system  20 , configurations previously stored in the smart phone for manipulation of the UI  18  as well as specific voice activated commands used previously in the cell phone can be downloaded from the profile management system  24  and thereby be used with the computing system  20 , having the various commands or controls mimicked seamlessly. 
         [0035]    The profile management method  100  preferably resides on the profile management system  24  as a plurality of instructions stored on a machine readable medium of the profile management system  24 . It is preferred that the instructions, when executed, cause the profile management system  24  to perform the step of the profile management method  100 . Similarly, the device discovery method  116  exists on the computing system  20  as a plurality of instructions stored on a machine readable medium thereof. It is preferred that the instructions, when executed, cause the profile management system  24  to perform at least one of the steps of the device discovery method  116 . 
         [0036]    In a forgoing manner, a profile management method  100  and profile management system  24  are described according to exemplary embodiments of the invention. Although only a number of embodiments of the invention are disclosed in this document, it will be apparent to one skilled in the art in view of this disclosure that numerous changes and/or modifications can be made to the disclosed embodiments without departing from the scope and spirit of the invention. 
         [0037]    The following examples pertain to further embodiments. 
         [0038]    Example 1 is a profile management method comprising: receiving client data provided by a computing system, the client data comprising device data being descriptive of a user-interface (UI) in signal communication with the computing system, the device data being further descriptive of the user interactions identifiable by the UI; associating one of a plurality of device profiles with the device data, each of the plurality of device profiles having configuration data associated therewith; and providing the configuration data associated with the one of the plurality of device profiles to the computing system for configuring operation of the UI with the computing system in response to at least a portion of the user interactions identifiable by the UI. 
         [0039]    In example 2, the subject matter of example 1 can optionally include that the UI is one of a computer peripheral coupled with an interface formed integral with the computing device. 
         [0040]    In example 3, the subject matter of example 1 can optionally include that the UI is at least one of actuation, touch, light, sound, motion and position sensing. 
         [0041]    In example 4, the subject matter of example 1 can optionally include that the client data further comprises identifier data being indicative of the user interactions being identifiable by the UI. 
         [0042]    In example 5, the subject matter of example 4 can optionally include that associating one of a plurality of device profiles with the device data comprises: associating one of a plurality of user identifiers with the identifier data, each of the plurality of identifier data having at least one of the plurality of device profiles associated therewith; and associating the device data with one of the plurality of device profiles associated with the one of the plurality of user identifiers associated with the identifier data. 
         [0043]    In example 6, the subject matter of example 4 can optionally include receiving authentication data from the computing system; and authenticating the identifier data using the authentication data, wherein the configuration data is provided to the computing system in response to the identifier data being authenticated. 
         [0044]    In example 7, the subject matter of example 1 can optionally include that the configuration data substantially defines interactions between the UI and at least one of an application and an operating platform operating on the computing system. 
         [0045]    In example 8, the subject matter of example 1 can optionally include that providing the configuration data associated with the one of the plurality of device profiles to the computing system comprises: processing the configuration data for compliance with an operating platform, the client data comprising a platform data describing the operating platform. 
         [0046]    Example 9 is a profile management system comprising: a controller module for receiving client data provided by a computing system, the client data comprising device data being descriptive of a user-interface (UI) in signal communication with the computing system, the device data being further descriptive of the user interactions identifiable by the UI; a storage module having stored thereon a plurality of device profiles, each of the plurality of device profiles having configuration data associated therewith; a processor module for associating one of a plurality of device profiles stored on the storage module with the device data, wherein the configuration data associated with the one of the plurality of device profiles is providable by the controller module to the computing system for configuring operation of the UI with the computing system in response to at least a portion of the user interactions identifiable by the UI. 
         [0047]    In example 10, the subject matter of example 9 can optionally include that the UI is one of a computer peripheral coupled with an interface formed integral with the computing device. 
         [0048]    In example 11, the subject matter of example 10 can optionally include that the UI is at least one of actuation, touch, light, sound, motion and position sensing. 
         [0049]    In example 12, the subject matter of example 9 can optionally include that the client data further comprises identifier data being indicative of the user interactions being identifiable by the UI. 
         [0050]    In example 13, the subject matter of example 12 can optionally include that the processor module is further configured to associate one of a plurality of user identifiers with the identifier data, each of the plurality of identifier data having at least one of the plurality of device profiles associated therewith; and associating the device data with one of the plurality of device profiles associated with the one of the plurality of user identifiers associated with the identifier data. 
         [0051]    In example 14, the subject matter of example 12 can optionally include an authentication module for receiving authentication data from the computing system; and authenticating the identifier data using the authentication data, wherein the configuration data is provided to the computing system in response to the identifier data being authenticated. 
         [0052]    In example 15, the subject matter of example 9 can optionally include that the configuration data substantially defines interactions between the UI and at least one of an application and an operating platform operating on the computing system. 
         [0053]    In example 16, the subject matter of example 9 can optionally include that the processor module is further configured to process the configuration data for compliance with an operating platform, the client data comprising a platform data describing the operating platform. 
         [0054]    Example 17 is a machine readable medium having stored therein a plurality of programming instructions, which when executed, the instructions cause the machine to: receive client data provided by a computing system, the client data comprising device data being descriptive of a user-interface (UI) in signal communication with the computing system, the device data being further descriptive of the user interactions identifiable by the UI; associate one of a plurality of device profiles with the device data, each of the plurality of device profiles having configuration data associated therewith; and provide the configuration data associated with the one of the plurality of device profiles to the computing system for configuring operation of the UI with the computing system in response to at least a portion of the user interactions identifiable by the UI. 
         [0055]    In example 18, the subject matter of example 17 can optionally include that the UI is one of a computer peripheral coupled with and an interface formed integral with the computing device. 
         [0056]    In example 19, the subject matter of example 17 can optionally include that the UI is at least one of actuation, touch, light, sound, motion and position sensing. 
         [0057]    In example 20, the subject matter of example 17 can optionally include that the client data further comprises identifier data being indicative of the user interactions being identifiable by the UI. 
         [0058]    In example 21, the subject matter of example 20 can optionally include that the plurality of programming instructions, when executed, cause the machine to: associate one of a plurality of device profiles with the device data comprising: associate one of a plurality of user identifiers with the identifier data, each of the plurality of identifier data having at least one of the plurality of device profiles associated therewith; and associate the device data with one of the plurality of device profiles associated with the one of the plurality of user identifiers associated with the identifier data. 
         [0059]    In example 22, the subject matter of example 20 can optionally include receiving authentication data from the computing system; and authenticating the identifier data using the authentication data, wherein the configuration data is provided to the computing system in response to the identifier data being authenticated. 
         [0060]    In example 23, the subject matter of example 17 can optionally include that the configuration data substantially defines interactions between the UI and at least one of an application and an operating platform operating on the computing system. 
         [0061]    In example 24, the subject matter of example 17 can optionally include that the plurality of programming instructions, when executed, cause the machine to: process the configuration data for compliance with an operating platform, the client data comprising a platform data describing the operating platform.

Technology Category: 3