Abstract:
A system and method for registering one or more networked endpoints devices includes indicating each user account to be associated with a registered endpoint. Each user account is assigned a unique PIN that will be used during registration of an endpoint. Once the endpoint is connected to the communication network, the system prompts the endpoint for a PIN. The PIN may be entered manually or electronically at the endpoint device. The system matches the PIN to its associated user account and sends the endpoint configuration files. The system retrieves the MAC address from the endpoint (which is generally stored within the endpoint device) and replaces the PIN with the MAC address. The endpoint is now registered on the network without the tedious task of manually entering long strings of addressing data.

Description:
FIELD OF INVENTION 
     The present invention relates generally to a system and method for networked endpoint registration. 
     BACKGROUND OF THE INVENTION 
     Endpoint devices are typically identified on a networked system by a unique set of digits assigned to the device, such as the Media Access Control (MAC) address. The digits or addressing data are usually stored in the local memory of the device and are often used during registration to include the device as part of the networked system. 
     This registration process may include identifying the endpoint device, verifying that the device is authorized to belong to the network, and establishing a data pathway to the device. Typically, the registration process involves manually keying in the device&#39;s addressing data as well as the IP address of the server to which the device is to connect. This largely manual process is tedious and extremely prone to mistakes. One wrong keyed-in digit will result in an error and require the system administrator to start over with registering the endpoint device. As the number of endpoint devices to be registered increases so does the length of the registration process and the margin for error. 
     An improved system and method for networked endpoint registration is desired that significantly reduces the level of labor-intensive digit key-in. It would also be desirable to register endpoint devices in a networked system in a rapid, simplified and efficient manner. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       These and other features, aspects and advantages of the present invention may be best understood by reference to the following description taken in conjunction with the accompanying drawings in which like numerals represent like elements: 
         FIG. 1  illustrates an exemplary system architecture suitable for implementing a system and method for networked endpoint registration in accordance with the various embodiments; and 
         FIGS. 2 and 3  are flowcharts of exemplary operations in a networked endpoint registration system. 
     
    
    
     DETAILED DESCRIPTION 
       FIG. 1  illustrates an exemplary system architecture  100  suitable for implementing a system and method for networked endpoint registration in accordance with the various embodiments. In general, a networked endpoint registration system  100  includes a system manager  110 , a main server  120 , a communication network  130 , and one or more endpoints  150 . Endpoints  150  may include any communication device capable of coupling to system network  130  including, but not limited to, telephones (stationary and portable), keysets, personal computers, computing devices, personal digital assistants, pagers, wireless remote clients, and messaging devices. In the particular embodiment depicted in  FIG. 1 , endpoints  150  include desktop keysets as well as keysets coupled to personal computing devices. Endpoints  150  may be local endpoints coupled to communication network  130  and/or remote endpoints coupled to network  130  via a remote network, the Internet or the like. 
     Used herein, “system manager”  110  may include software applications and the suitable computing device(s) used to run the applications. For example, a system administrator may initiate a software application to perform various functions in accordance with an endpoint registration system from a personal computing device, administration workstation or similarly equipped device. As will be discussed in more detail below, system manager  110  includes or is relationally linked to one or more databases having pertinent information stored thereon. Specifically, system manager  110  includes a storage of one or more system user accounts  114  and a storage for a PIN (personal identification number) associated with the user accounts. As will be detailed below, a PIN is assigned, e.g., by a random PIN generator, to a select group of system user accounts in accordance with the endpoint registration process discussed herein. 
     Main server  120  includes any suitable hardware, software, and/or storage combination used in a networked communication setting. Typically, the networked endpoints (or soon-to-be-networked endpoints) communicate with the main server and receive and report instructions, software applications, routing information, media session signaling, media data and configuration information. 
     Communication network  130  may be any suitable communication medium for routing data and information among a network of endpoints, e.g. LAN, Ethernet, wired and wireless solutions. Communication network  130  may also facilitate communications between local endpoints and remote endpoints, as well as system manager  110  and the remote endpoints via the Internet or the like. 
     Additional details regarding the various elements of system architecture  100  will be described in the text accompanying the following flowcharts. The flowcharts are provided to better understand the various steps of operation in registering one or more networked endpoints as described herein, as well as the exemplary elements, processes, applications and methods. It should be realized that the following description is not intended to be limiting but rather to provide a description of various embodiments and a best mode of operation. It should be appreciated that additional steps may occur that are not represented on the following flowcharts but are discussed in the conjoining text or elsewhere herein. Moreover, there may be operations, functions, routines, and the like that are not depicted on the flowcharts or elsewhere but are well understood in the industry as common actions for a communications system. Unless specifically stated, the order of the depicted and described operations are not limited to the conjoining description. 
       FIG. 2  is a flowchart  200  of exemplary operations in a networked endpoint registration system and, more particularly, the exemplary operations of a system administrator and/or user to register one or more endpoints within the system network. The system administrator is typically a human interface with the system, however it should be appreciated that many operations may be automated and not necessarily performed by a human. Initially, the system administrator indicates the user account(s) for which an endpoint is to be added and registered (step  210 ). For example, system manager  110  may include a list of user accounts  114  representative of the employees for the business, site, company, group or the like. Some of the employees may have multiple devices in their account, such as a desktop device, remote device, or multiple extensions. It may be that phantom extensions are used such that an actual employee name or user may not be associated with the device. It may also be the case that the system administrator creates a new alias or device for the user under the user account or creates the user altogether. At any rate, the system administrator determines one or more user names, alias&#39;, or sub-alias&#39; for which endpoints are to be associated with and registered to on the system. 
     The system administrator then assigns a PIN to each user account for which an endpoint is to be registered (step  220 ). This may be performed by using a random number generator, manual key entry or any other appropriate means. Thus, the system administrator may select the PIN or it may be selected using automated methods. The PIN may include any unique combination of alpha-numeric digits, symbols or characters and is not limited to any specific string length. In one particular embodiment, the system manager performs a random PIN generation and assigns a PIN to each user name as selected by the system administrator. 
     At some point in the registration process, the endpoint is connected to the system communication network, such as network  130  (step  230 ). It should be realized that in the case of registration of remote endpoints, the network may not be a system-wide network but rather a home-based type network. As previously mentioned, the network should be capable of two-way communication between the endpoint and the system manager (e.g., system manager  110 ) and the main server (e.g., main server  120 ). Also, the network may include multiple connections, routings, firewalls and various other elements not mentioned herein but are common to communication networks. 
     Recall that each endpoint to be registered is associated with a unique PIN. The system administrator has a list of the user&#39;s account(s) for endpoint registration and their paired unique PINs. Upon initial installation, the PIN is then entered at the endpoint location or recognized by the system in any number of methods (step  240 ). In one embodiment, the system administrator sends each identified user an electronic message containing the PIN. For example, the system administrator may send an email to each user with instructions for the user to enter the enclosed PIN when indicated on the endpoint or associated computing device. Optionally, the endpoint may be associated with a computing device that reads the email content and PIN when opened and copies it to the endpoint automatically, thus the user does not have to enter the PIN manually. In yet another embodiment, the PIN may be included as a digital signature file that can be stored in a removable memory device and temporarily connected to the endpoint. In this embodiment the user is not required to enter the PIN, but rather the PIN is read directly from the portable memory. Of course, it may be that the system administrator retains the PIN and the user is not involved in the registration process at all. Upon system acceptance of the PIN (and various other system steps that will be discussed in the next flowchart), the endpoint is registered (step  250 ). 
       FIG. 3  is a flowchart  300  of exemplary operations in a networked endpoint registration system and, more particularly, the exemplary operations performed by the system, such as in a software application, to register one or more endpoints within the system network. Initially, the endpoint to be registered is connected to the system communication network (step  302 ). As previously explained in step  230 , the communication network (e.g., network  130 ) should facilitate communication to and from the endpoint to the system manager and main server. 
     Once powered up, it is determined if the endpoint has received an IP address (step  304 ). If not, the endpoint may request and receive an IP address from the DHCP server (step  306 ). Alternatively, the IP address may be manually entered at the endpoint. Once the IP address of the server is recognized, the endpoint attempts to connect to the server (e.g., main server  120 ) to obtain the endpoint&#39;s configuration files (step  308 ). The server queries whether the endpoint is recognized, for example if the endpoint&#39;s MAC address matches a set of configuration files stored at the server (step  310 ). If the endpoint has been previously registered and the registration is still valid, then the endpoint MAC address should be found in the server and the configuration files are sent to the endpoint (step  330 ). 
     If the endpoint is not currently registered, then the server will not be able to recognize the endpoint as part of the networked system. In this case, the server sends a prompt to the endpoint for its unique PIN (step  320 ). The PIN may be entered at the endpoint, recognized through a digital signature or electronic message, or input in any number of various contemplated ways or as mentioned herein. The system may perform a verification to see if the PIN matches the endpoint location (step  325 ) or alternatively, the system may simply accept the PIN as a valid PIN number from the list of generated PINs. If the PIN number is not recognized by the system as a valid PIN or belonging to any of the user accounts, then the system may return an error message (step  326 ). If, however, the PIN is verified and accepted, then the configuration files for the endpoint are delivered (step  330 ) and the endpoint is ready for operation. The endpoint&#39;s MAC address is automatically retrieved (step  340 ) and will replace the PIN in the system manager (step  345 ). Thus, the user account is now correctly associated with the MAC address and the endpoint is registered within the system (step  350 ). 
     In one embodiment, the PIN may be deleted from the system manager after a successful registration to prevent multiple registration attempts using the same PIN. 
     In one embodiment, the PIN is time sensitive such that after a predetermined passage of time, the PIN is no longer valid. Thus, if the endpoint is not registered within the set period of time, a new PIN must be reassigned to the endpoint. 
     Presented herein are various systems, methods and techniques for networked endpoint registration, including the best mode. Having read this disclosure, one skilled in the industry may contemplate other similar techniques, modifications of structure, arrangements, proportions, elements, materials, and components for registering networked endpoint devices that fall within the scope of the present invention. These and other changes or modifications are intended to be included within the scope of the present invention, as expressed in the following claims.