Intelligent presence management in a communication routing system

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

Embodiments of the present invention relate generally to presence management and more particularly to intelligent presence management in a communication routing system.

2. Description of Related Art

Often time, an availability of a user to receive a phone call is important during business hours. This may be especially important in a call center or customer service department where calls need to be queued up for a next available agent (i.e., user).

Conventionally, the user may forward their calls when they expect to be away from their desk phone. For example, the user may forward calls to their mobile phone. However, the process for forwarding calls is manual. That is, the user must know in advance that they will be away from their desk phone, and must spend time configuring their desk phone to perform the forwarding function.

Alternatively, if the user is not available to answer their desk phone, the call may be forwarded to an answering service or answering device. In these cases, the answering service or answering device will take a message for the user, which the user may retrieve at a later time. However, some instances of these call forwarding mechanisms may require the user to manually indicate that the calls should be forwarded to the answering service or answering device. Other instances require the desk phone be contacted first and after no answer, the call is forwarded to the answering service or device.

As a result of the above mention problems, there is a need for a system that can intelligently direct communications in an automated manner.

SUMMARY OF THE INVENTION

Embodiments of the present invention provide systems and methods for intelligent presence management in a communication routing system. In exemplary embodiments, an inbound communication is received for a user. The inbound communication may comprise a phone call, e-mail, chat message, or any other type of communication that may be available for the user.

The user's presence status is then determined. In exemplary embodiments, the presence status may comprise presence information received from one or more presence detection modules. The presence information may comprise a presence indication signal which may include a unique identifier on a on a wireless network, Bluetooth, wimax, or any other unique identifier using a wireless protocol. A detection method could also include indication of keyboard and mouse movement or any other information which may indicate the presence or absence of a user within a user area (i.e., presence status).

Based on the detected presence status of the user, instructions may be generated to forward the inbound communication to an appropriate communication device. In exemplary embodiments, a user profile associated with the user is reviewed to determine communication routing rules based on the presence status. Appropriate instructions are then generated for forwarding the inbound communication accordingly.

In yet other embodiments, the user may be logged in or out with the communication routing system (e.g., logged in or out of their communication devices and/or a communication queue of a call center) based on the presence status. For example, if no presence is detected after a predetermined period of time, the user may be logged out of the communication queue of the call center. In other embodiments, prolonged absence of the user may trigger routing of inbound communications to an alternative person (e.g., another user at a call center or designated out-of-office contact).

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram of an exemplary environment in which embodiments of the present invention may be practiced.

FIG. 2 is a diagram of exemplary user area.

FIG. 3 is a block diagram of a HUD server, according to one embodiment of the present invention.

FIG. 4 is an exemplary presence engine.

FIG. 5 is an exemplary flowchart of a method for presence detection at the user area.

FIG. 6 is an exemplary flowchart of a method for routing communication based on smart presence management; and

FIG. 7 is an exemplary flowchart of a method for automated login/logout of the user.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

Embodiments of the present invention provide systems and methods for intelligent presence management in a communication routing system. In accordance with one embodiment, the communication routing system is associated with a call center (e.g., a customer service center). In exemplary embodiments, a centralized server device receives presence information for a user. Inbound communications may be routed to a predetermined communication device associated with the user based on a user profile and the presence information. Alternatively or in addition, the user may be logged in and out with the communication routing system based on their presence information.

FIG. 1 shows an exemplary environment 100 in which embodiments of the present invention may be practiced. The exemplary environment 100 comprises a main office 102 and a remote user area 104 coupled in communication via a communication network 106. The communication network 106 may comprise the Internet or any other wide area network.

The main office 102 comprises one or more user areas 108. Each user areas 108 may be coupled, via a computing device, to a heads-up display (HUD) server 110, a PBX server 112, and/or an e-mail server 114. In an alternative embodiment, the HUD server 110, PBX server 112, and e-mail server 114 may be comprised within more or few server devices. For example, the HUD server 110, PBX server 112, and e-mail server 114 may be embodied within a single communication server device. Furthermore, other communication server devices may be provided for management and/or monitoring of other forms of communications.

Each user area 108 may be associated with a user (e.g., employee). The user area 108 may comprise one or more communication devices of the user that are configured to operate in connection with the various communication server devices (e.g., servers 110-114). The user area 108 will be discussed in more detail in connection with FIG. 2 below.

In accordance with one embodiment, the HUD server 110 comprises the presence and communication management system of the present invention. The HUD server 110 will be discussed in more detail in connection with FIG. 3 below. It should be noted that the presence and communication management system can be embodied on a separate, distinct server (e.g., a presence management server) apart from the HUD server 110.

The PBX server 112 is configured to manage telephone calls in and out of the main office 102. For example, when the external user 118 (also referred to elsewhere herein as external user device 118) places a telephone call to the main office 102, the telephone call is routed through the PSTN 116 to the PBX server 112. From there, the telephone call may be routed to a proper user associated with the main office 102. Additionally, the PBX server 112 may monitor and/or manage calls of the remote user area 104 according to one embodiment.

In exemplary embodiments, the communication network 106 also couples the main office 102 to external user devices 118. These external user devices 118 may be associated with clients or customers of the main office 102 attempting to communicate with one or more users associated with the main office 102. In accordance with one embodiment, the external users are customers accessing a customer service center (e.g., call center) associated with the main office 102.

The exemplary e-mail server 114 may manage e-mail communications received and sent from the main office 102. Furthermore, the e-mail server 114, in accordance with one embodiment, may monitor and/or manage e-mails of the remote user area 104 (also referred to elsewhere herein as remote user 104).

The optional remote user area 104 comprises a location of any individual (e.g., employee) associated with the main office 102 which is accessing the main office 102 externally. For example, the remote user area 104 may represent a home office. The remote user 104 may comprise one or more communication devices. In some embodiments, the remote communication devices may access the main office 102 via a remote router (not shown). It should be noted that “remote” as used herein refers to any environment external to a physical location of the main office 102. Accordingly in some embodiments, inbound communications to a user may be directed to the remote user area 104 when the user is not physically in the main office 102 based on the user's profile settings.

It should be noted that the embodiment of FIG. 1 is exemplary. Alternative embodiments may comprise any number of main offices 102, remote user areas 104, communication server devices 110-114, and external users 118 coupled in communication. In some embodiments, the presence management system may only be utilized within the main office 102 environment (i.e., no remote user area 104). To simplify discussion, the following detailed description will focus on embodiments in which the users are located within the main office 102.

Referring now to FIG. 2, the exemplary user area 108, which may also be applicable to the remote user area 104, is shown in more details. According to one embodiment, the user area 108 may represent a cubicle or office of the user. Alternatively, the user area 108 may be a desk or any other distinct space associated with the user.

In some embodiments, each user area 108 may be associated with a particular user. In other embodiments, the user area 108 may be used by more than one user. In both embodiments, the user area 108 may comprise or be associated with one or more communication devices 202. The communication devices 202 may comprise any devices that are enabled for communication, such as a desktop computer, a laptop, an analog phone, a mobile phone, or an IP phone. To simplify discussion, the following detailed description will focus on embodiments in which the communication devices 202 are computers and telephones. It should be noted that any number of communication devices 202 may be located within a user area 108.

In exemplary embodiments, the communication device 202 may include one or more input devices 204. In some embodiments, the communication device 202 may also comprise a presence detection module 206. The input devices 204 may comprise a keyboard and a mouse of a computing device according to one embodiment. In some embodiments, the presence detection module 206 may be configured to detect the presence of the user on the communication device 202 based on movement of the coupled input device(s) 204. For example, if the coupled mouse and keyboard has no activities for more than 15 minutes, then the presence detection module 206 may register the user as being away from their desk (e.g., user area 108), and thus may be unavailable to receive inbound communications at their desk.

In a further embodiment, one or more of the communication devices 202 may be coupled via a local network 208 to an optional, stand-alone presence detection module 210 (e.g., embodied within a separate unit). In some embodiments, the local network 208 may be a wireless network (e.g., Bluetooth, Wi-Fi, WiMax, infrared, etc.). Alternatively, the stand-alone presence detection module 210 may be connected (e.g., wired) to one or more communication devices 202.

According to exemplary embodiments, a receiver 212 of the presence detection module 210 or 206 (not shown) may periodically (e.g., every ten seconds) or constantly search for a presence indication signal from the communication device 202. In one example, the presence indication signal comprises a certain frequency (e.g., Bluetooth from a mobile phone) emitted by the communication device 202. When the communication device 202 is within a certain range of the receiver 212, the receiver 212 will detect the presence indication signal. Once received, the presence detection module 210 or 206 may send presence information (e.g., presence indication signal) to the HUD server 110 via, for example, a communication interface 214 of the stand-alone presence detection module 210 or via a communication interface of the communication device 202, itself.

According to another embodiment, the communication device 202 may comprise a desk phone coupled to the presence detection module 206 or 210. In this embodiment, the presence detection module 206 or 210 will detect when the desk phone is in use or not in use.

In a further embodiment, the user may carry a user presence device 216 on his/her person which will emit a presence indication signal or frequency that the presence detection module 206 or 210 detects. The user presence device 216 may comprise, for example, a key card or an employee ID card. When the user presence device 216 enters a certain proximity of the receiver 212 of the presence detection module 210 or 206, the presence indication signal emitted from the user presence device 216 is detected by the presence detection module 210.

In yet a further embodiment, the presence of the user may be determined via GPS. For example, the user may carry a communication device 202 or other user presence device 216. The presence detection module (e.g., embodied within a satellite) may then determine user location based on the location of the communication device 202 or the user presence device 216.

Referring now to FIG. 3, the exemplary HUD server 110 is shown in more details. The HUD server 110 may comprise a processor 302, a communication interface 304, and a storage device 306. The HUD server 110 may comprise other components not essential to the discussion of the intelligent presence management system. The communication interface 304 is configured to allow the HUD server 110 to communication with the communication network 106.

The storage device 306 may comprise a presence engine 308, a profile setup module 310, and a plurality of databases 312. These databases 312 may comprise a profile database 314 for storing profiles for each user and a presence database 316 for storing presence status of the users. The storage device 306 may, in accordance with some embodiments, comprise a chat engine 318. The exemplary chat engine 318 is enabled to provide chat functionality (e.g., forward chat messages from one user to one or more other users regardless of whether the users are local, remote, or external users) and may determine chat status. Alternative embodiments may comprise more, less, or functionally equivalent engines and modules.

The exemplary presence engine 308 is configured to perform the operations of embodiments of the intelligent presence system. As such, the presence engine 308 may determine the presence of users, and based on profiles and rules stored in the profile database 314, perform one or more actions accordingly. In some embodiments, the presence engine 308 may send instructions to log the user in or out of the communication routing system. In other embodiments, the presence engine 308 sends instructions to route inbound communications to a proper communication device of the user based on the user's profile or to an alternative user. The presence engine 308 will be discussed in more detail in connection with FIG. 4 below.

The profile setup module 310 is configured to establish a profile for each user. The profile may comprise a set of rules which indicate one or more actions to be performed based on the presence status of the user. In some embodiments, the profile may also indicate whether to log the users in or out of communication devices or communications servers, or log the user in or out with the communication routing system (e.g., a call queue of a call center) after a certain period of inactivity (e.g., lack of presence or activity). Furthermore, the rules may provide different routing and login options based on an amount of time the user is present/not present. For example, if the user is not present for 15 minutes, an inbound communication may be directed to the user's mobile device. However, if the user is not present for more than an hour, the user may be logged out of the communication system and/or the inbound communication may be sent to the user's home phone. Therefore, the profiles provide guidance based on the user's presence status within the communication routing system.

As provided, the profile may include a plurality of routing rules for when the user is present or away from their desk (e.g., user area 108). Thus, for example, a phone call may be routed to the user's desk phone when they are present at their user area 108, to the user's mobile phone during business hours when the user is not at their user area 108, and to the user's home phone in the evening. In a further example, the profile may indicate that e-mail and chat messages be forwarded to the user's mobile phone if the user is not at his desk for more than 15 minutes, or to Google Talk at home if the user is not at his desk for more than three hours. In accordance with exemplary embodiments, each profile may be individually customized such that each user may have a different set of routing and login rules.

In some embodiments, the profile setup module 310 may apply default rules for the user profile unless the user or their administrator changes the rules. For example, the default profile rules may include forwarding all inbound phone calls to a user's mobile phone when they are away from their user area 108 for more than ten minutes.

In accordance with one embodiment, the profile setup module 310 may be coupled in communication to the HUD server 110 as a web-based interface. As such, an individual (e.g., the user or the administrator) may access the profile setup module 310 from any location that provides web access. For example, the individual may make changes to existing profiles or set up new profiles from home. The profiles and rules may then be saved to a centralized database and/or be copied to the profile database 314 on the HUD server 110. In exemplary embodiments, the profiles are updated to the HUD server 110 in real-time. In yet a further embodiment, the profile setup module 310 may be embodied within the presence engine 308.

Referring now to FIG. 4, a block diagram of the exemplary presence engine 308 is shown. The presence engine 308 is configured to determine the presence of users and based on profiles and rules stored in the profile database 314 perform actions associated with each user. These actions may comprise logging the user into or out of the communication routing system and/or routing inbound communications to the user based on their presence and profile rules. In exemplary embodiments, the presence engine 308 may comprise a presence status module 402 (also referred to elsewhere herein as presence detection module 402), a profile lookup module 404, a login communication module 406, and a communication routing module 408 (also referred to elsewhere herein as routing communication module 408). In some embodiments, the presence engine 308 may further comprise a chat presence module 410 and a telephony presence module 412. Alternatively, the chat and telephony presence modules 410 and 412 may be embodied within the presence status module 402, elsewhere in the HUD server 110, or not be present in the HUD server 110.

The presence status module 402 may be configured to receive presence information from the presence detection modules (e.g., 206 and/or 210). The presence information may be received in real time or periodically (e.g., every 10 seconds). In some embodiments, the presence status module 402 pings the various presence detection modules 206 and 210 for the presence information. In other embodiments, the presence detection modules 206 and 210 sends the presence information whenever a change in presence information is detected or at a predetermined time interval. The presence information may then be stored in the presence database 316.

If there is a change in presence information associated with one or more users or if an event occurs, the presence status module 402 may trigger the profile lookup module 404 to review the associated profile of the user to determine if any actions need to be performed. In some embodiments, the event may comprise receipt of an inbound communication or expiration of a predetermined time period. For example, the profile lookup module 404 may review the profile associated with a particular user that is currently receiving an inbound communication. In another embodiment, the profile lookup module 404 may review the profile if the user has not been present for more than a certain period of time to determine if the user should be logged off the communication routing system (e.g., logged out of a communication queue of a call center). Based on the rules found in the associated profile, the profile lookup module 404 may trigger the login communication module 406 or the routing communication module 408 to perform an action.

The login communication module 406 may be configured to send login instructions to the proper communication server based on the user's presence status. For example, suppose the profile indicates that if the user has been away from their user area 108 for more than an hour, then the user is to be logged off with the communication routing system (e.g., the main office 102 communication routing system) or logged off from receiving a queue call of a call center. In this situation, the login communication module 406 may generate and send instructions to appropriate communication servers to log the user out. Thus, for example, if the user is logged in to receive e-mails and phone calls, then the login communication module 406 may forward instructions to the e-mail server 114 and the PBX server 112 to log the user out.

The exemplary communication routing module 408 may be configured to send communication routing instruction(s) to the proper communication server(s) based on user's presence status. For example, suppose the profile indicates that if the user is away from their user area 108 for more than ten minutes, chat messages and e-mails should be routed to the user's mobile phone and phone calls routed to an alternative user. In this situation, the routing communication module 408 will generate and send instructions to the respective communication servers (e.g., the PBX server 112 for the phone call and the e-mail server 114 for e-mails) to route the inbound communication to the proper person/device. The communication routing module 408 may, in another example, generate instructions to route the inbound communication to a primary communication device 202 (e.g., a device at the user area 108) when the user is present in their user area 108.

It should be noted that in alternative embodiments, the login communication module 406 and/or the routing communication module 408 may be located outside of the presence engine 308 but within the storage device 306 of the HUD server 110.

Because chat messages pass through the chat engine 318 of the HUD server 110, in accordance with some embodiments of the present invention, the chat presence module 410 will be able to easily detect the chat status of users that are chatting. Thus, the chat presence module 410 may determine which users are chatting based on chat messages being routed through the chat engine 318. If the user is chatting, then the user may be considered present according to an alternative embodiment.

The exemplary telephony presence module 412 may be configured to maintain the telephony status of local and remote users in accordance with another alternative embodiment. Since all telephony calls are directed through the PBX server 112, the PBX server 112 will know the status of users on calls. In this embodiment, the PBX server 112 may forward telephony status to the telephony presence module 412. The status may be forwarded periodically (e.g., every 2 minutes), as soon as a change is detected (e.g., a user picks up a line of the telephony device), or continuously in real-time. Alternatively, the telephony presence module 412 may pull the telephony status from the PBX server 112 periodically or continuously.

As previously noted, embodiments of the present invention may not embody the chat and telephony presence modules 410 and 412 or embody the functions within the presence status module 402. In some of these embodiments, the presence status module 402 may receive presence information from the communication servers or engines that manage inbound communications to determine presence status of users. In other embodiments, only presence status as determined by the presence detection module 206 or 210 are used.

Referring now to FIG. 5, a flowchart 500 of an exemplary method for presence detection at the user area 108 is shown. In step 502, the presence or absence of the user is detected. In some embodiments, the presence detection module 206 or 210 will detect or not detect a frequency or signal (e.g., presence indication signal) from one or more communication devices 202 or the user presence device 216. For example, the presence detection module 206 or 210 may detect a Bluetooth signal from a Bluetooth enabled device (e.g., mobile phone). In other embodiments, the presence detection module 206 detects the movement or lack of movement of input devices (e.g., keyboard and/or mouse). In yet other embodiments, the presence detection module 206 may be embodied within a GPS system. The presence detection module 210 may be a stand-alone unit coupled to one or more communication devices 202 in accordance with some embodiments. It should be noted that any one or more of these presence detection methods may be utilized at any one time in exemplary embodiments of the present invention.

In step 504, a determination is made as to whether a presence is detected. If no presence is detected, the indication of absence may be sent to the presence engine 308 in step 506. Alternatively, the presence detection module 206 or 210 may perform no action in the absence of presence. It should be noted that steps 504 and 506 may be optional or removed in accordance with alternative embodiments. For example, the presence information may be sent to the presence engine 308 regardless of whether presence is detected.

If presence is detected in step 504, then in accordance with one embodiment, a user/device identification may be received from the communication device 202 in optional step 508. In some embodiments, user may share a user area 108 or users may wander between user areas 108 but still want to be reachable. In these embodiments, the presence detection module 206 or 210 may need to identify the user within a particular user area 108. Thus, the communication device 202 or user presence device 216 being carried by the user may provide a unique identifier (e.g., a serial number, MAC address, mobile phone number, etc.) that will indicate the device 202 or 216 and/or the user associated with the device 202 or 216. In some embodiments, a record of these unique identifiers may be stored in, or associated with, a user's profile.

In step 510, the presence information is sent to the presence engine 308. In some embodiments, the presence information may comprise an indication that the user in the user area 108 is present or not present. In other embodiments, the presence information may include the unique identifier associated with the communication device 202 or user presence device 216.

Referring now to FIG. 6, a flowchart 600 of a method for communication routing in a communication routing system is provided. In exemplary embodiments, the communication routing may occur in real-time. In step 602, an inbound communication is received for the user. For example, an e-mail may be received by the e-mail server 114 addressed to the user, or a phone call for the user is received by the PBX server 112.

The user's presence status is reviewed in step 604 to determine if the inbound communication may be forwarded to the user and/or to determine to which communication device the inbound communication should be routed. In exemplary embodiments, the presence status module 402 determines the status by reviewing the presence database 316. Alternatively, the presence status module 402 may request, in real-time, the presence status from one or more presence detection modules 206.

In step 606, the profile lookup module 404 looks up the associated user profile stored in the profile database 314 to determine communication routing and/or login/logout rules for the user. For example, if the user is not at their desk, the profile rules may instruct that an e-mail be forwarded to a mobile device associated with the user. Alternatively, if the user is at the user's desk (e.g., present in their user area 108), the profile rule may instruct that the e-mail be forwarded to the user's computing device at their desk.

It should be noted that more than one rule or action may be provided for a specific situation in the profile. For example, if the user is not present, the profile rule may provide that the user be logged out of a call queue and that inbound communications be routed to another user.

Once the profile is reviewed, appropriate instructions are generated and sent to perform the proper action as provided by the profile in step 608. In exemplary embodiments, the routing communication module 408 generates routing instructions to direct routing to the appropriate device(s). In other embodiments, the login communication module 406 may generate login instructions to direct one or more communication device(s) or communication server device(s) to log the user in or out. The instructions are then sent to the appropriate device(s).

In step 610, the device(s) performs the instructions received from the HUD server 110. Thus, for example, the PBX server 112 may route a phone call to a user's desk phone or mobile phone as instructed.

Referring now to FIG. 7, a flowchart 700 of an alternative process for intelligent presence management in a communication routing system is shown. In accordance with some embodiments, the communication routing system may log a user in or out or direct communications accordingly based on the user's presence status regardless of inbound communications being directed to the user.

In step 702, the presence information is received from the presence detection module 206. In some instances, the presence information may identify the user via a key card or an employee identifier obtained from the communication device. Alternatively, the presence status module 402 may receive presence information for the user and identify the user based on the associated presence detection module 206 that is sending the presence status. In exemplary embodiments, the presence information may be received continuously, periodically, based on an event (e.g., when the presence detection module 206 detects no movement after a predetermined period of time), or any other time. In some embodiments, the presence status/information is updated in the presence database 316 in step 704. In an alternative embodiment, the presence status may be determined in real-time and not stored.

The profile lookup module 404 accesses the profile database 314 to determine, based on the presence status, what actions should be performed. In the present embodiment, a determination is made as to whether the user should be logged into or out of a user device or work environment in step 706. For example, if the user is logged in to receive e-mails but their keyboard and mouse has not move in over 30 minutes, the user's profile may comprise a rule to log the user out with the e-mail server 114. Alternatively, if the user walks into their user area 108 and their user presence device 216 is detected, a rule may indicate that the user should be logged in to receive inbound communications (e.g., log the user into the call center communication queue).

Instructions to log the user in or out are generated and sent in step 708. In exemplary embodiments, the login communication module 406 will generate and send the instructions to the appropriate communication devices or communication server device(s) to log the user in or out. In an alternative embodiment, instructions may be sent to the user's communication device, itself, to log the user in or out. Alternatively, the routing communication module 408 may generate and send instructions to one or more communication servers to route an inbound communication according to the settings of the profile. The device(s) then perform the instructions to log the user in or out accordingly.

The above-described components and functions can be comprised of instructions that are stored on a computer-readable or machine-readable storage medium. The instructions can be retrieved and executed by a processor. Some examples of instructions are software, program code, and firmware. Some examples of storage medium are memory devices, tape, disks, integrated circuits, and servers. The instructions are operational when executed by the processor to direct the processor to operate in accord with the invention. Those skilled in the art are familiar with instructions, processor(s), and storage medium.

The present invention has been described above with reference to exemplary embodiments. It will be apparent to those skilled in the art that various modifications may be made and other embodiments can be used without departing from the broader scope of the invention. Therefore, these and other variations upon the exemplary embodiments are intended to be covered by the present invention.

Claims

1. A method for intelligent presence management in a communication routing system, comprising: receiving an inbound communication for a user;determining a presence status for the user;reviewing a profile associated with the user to determine where to route the inbound communication based on the presence status;generating and forwarding instructions for routing the inbound communication based on the profile; androuting the inbound communication to a predetermined communication device associated with the user based on the profile and a mode of the inbound communication.
2. The method of claim 1 wherein determining a presence status comprises receiving presence information from a presence detection module.
3. The method of claim 2 wherein the presence information comprises a unique identifier associated with the user, the unique identifier being at least one of a serial number, a MAC address, and a mobile phone number.
4. The method of claim 2 wherein the presence information is based on mouse and keyboard movement.
5. The method of claim 2 wherein the presence information is based on a presence indication signal.
6. The method of claim 5 wherein the presence indication signal comprises a Bluetooth signal from a Bluetooth enabled device.
7. The method of claim 1 further comprising establishing and updating the profile associated with the user, the updating of the profile occurring in real-time.
8. The method of claim 1 further comprising determining if the user should be logged in or out with the communication routing system based on the presence status, and generating and forwarding instructions to log the user in or out with the communication routing system, wherein logging the user in or out with the communication system comprises logging the user into or out of a call queue of a call center, wherein the presence status is determined to be absent after a predetermined period of inactivity.
9. A system for intelligent presence management in a communication routing system, comprising: a presence status module configured to determine a presence status based on presence information received for a user;a profile lookup module configured to review a profile associated with the user to determine where to route an inbound communication based on the presence status; anda communication routing module configured to generate instructions for forwarding an inbound communication to a communication device based on the profile, and routing the inbound communication to the communication device associated with the user based on the profile and a mode of the inbound communication.
10. The system of claim 9 further comprising at least one communication server device configured to receive the inbound communication and to route the inbound communication based on the instructions received from the communication routing module.
11. The system of claim 9 further comprising a profile setup module configured to establish and update the profile for the user, the updating of the profile occurring in real-time.
12. A non-transitory computer readable storage medium having embodied thereon a program, the program being executable by a processor to perform a method for intelligent presence management in a communication routing system, the method comprising: receiving an inbound communication for a user;determining presence status for the user;reviewing a profile associated with the user to determine where to route the inbound communication based on the presence status;generating and forwarding instructions for routing the inbound communication based on the profile; androuting the inbound communication to a predetermined communication device associated with the user based on the profile and a mode of the inbound communication.
13. The system of claim 9 wherein determining a presence status comprises receiving presence information from a presence detection module.
14. The system of claim 9 wherein the presence information comprises a unique identifier associated with the user, the unique identifier being at least one of a serial number, a MAC address, and a mobile phone number.
15. The non-transitory computer readable storage medium of claim 12 wherein determining a presence status comprises receiving presence information from a presence detection module.
16. The non-transitory computer readable storage medium of claim 15 wherein the presence information comprises a unique identifier associated with the user, the unique identifier being at least one of a serial number, a MAC address, and a mobile phone number.
17. The non-transitory computer readable storage medium of claim 15 wherein the presence information is based on mouse and keyboard movement.
18. The non-transitory computer readable storage medium of claim 15 wherein the presence information is based on a presence indication signal.
19. A method for intelligent presence management in a communication routing system, comprising: receiving an inbound communication for a user;determining a presence status for the user;establishing and updating a profile associated with the user, the updating of the profile occurring in real-time, the profile associated with the user comprising different routing and login options based on an amount of time the user is one of present and not present;reviewing the profile associated with the user to determine where to route the inbound communication based on the presence status;generating and forwarding instructions for routing the inbound communication based on the profile; androuting the inbound communication to an alternative person based on the profile of the user.
20. A system for intelligent presence management in a communication routing system, comprising: a presence status module configured to determine a presence status based on presence information received for a user;a profile setup module configured to establish and update a profile for the user, the updating of the profile occurring in real-time, the profile associated with the user comprising different routing and login options based on an amount of time the user is one of present and not present;a profile lookup module configured to review the profile associated with the user to determine where to route an inbound communication based on the presence status; anda communication routing module configured to generate instructions for forwarding an inbound communication to a communication device based on the profile, and route the inbound communication to an alternative person based on the profile of the user.
21. A non-transitory computer readable storage medium having embodied thereon a program, the program being executable by a processor to perform a method for intelligent presence management in a communication routing system, the method comprising: receiving an inbound communication for a user;determining presence status for the user;establishing and updating a profile associated with the user, the updating of the profile occurring in real-time, the profile associated with the user comprising different routing and login options based on an amount of time the user is one of present and not present;reviewing the profile associated with the user to determine where to route the inbound communication based on the presence status;generating and forwarding instructions for routing the inbound communication based on the profile; androuting the inbound communication to an alternative person based on the profile of the user.
22. The method of claim 1 further comprising routing the inbound communication to an alternative person based on the profile of the user.
23. The system of claim 9 wherein the communication routing module is further configured to generate instructions for routing the inbound communication to an alternative person based on the profile of the user.
24. The non-transitory computer readable storage medium of claim 12 wherein the method further comprises routing the inbound communication to an alternative person based on the profile of the user.

CROSS-REFERENCE TO RELATED APPLICATION

The present application is a continuation and claims the priority benefit of U.S. patent application Ser. No. 12/069,083 filed Feb. 6, 2008 and entitled “Intelligent Presence Management in a Communication Routing System,” now U.S. Pat. No. 8,098,810, which is a continuation-in-part application of U.S. patent application Ser. No. 11/827,314, filed Jul. 11, 2007 and entitled “System and Method for Centralized Presence Management of Local and Remote Users,” now U.S. Pat. No. 8,693,659, which claims priority benefit of U.S. Provisional Patent Application No. 60/906,024 filed Mar. 9, 2007, and entitled “Real-Time Call Management System,” all of which are hereby incorporated by reference. The present application is also related to U.S. patent application Ser. No. 11/506,279, filed Aug. 17, 2006 and entitled “Mobile Use of a PBX System,” which is hereby incorporated by reference.

US Referenced Citations (188)

Number	Name	Date	Kind
4653090	Hayden	Mar 1987	A
5533110	Pinard et al.	Jul 1996	A
5703943	Otto	Dec 1997	A
5754636	Bayless et al.	May 1998	A
5854834	Gottlieb et al.	Dec 1998	A
5940488	DeGrazia et al.	Aug 1999	A
6067525	Johnson et al.	May 2000	A
6104711	Voit	Aug 2000	A
6137869	Voit et al.	Oct 2000	A
6282574	Voit	Aug 2001	B1
6359880	Curry et al.	Mar 2002	B1
6389132	Price	May 2002	B1
6400719	Chimura et al.	Jun 2002	B1
6418214	Smythe et al.	Jul 2002	B1
6430275	Voit et al.	Aug 2002	B1
6430289	Liffick	Aug 2002	B1
6453038	McFarlane et al.	Sep 2002	B1
6628765	Bangs et al.	Sep 2003	B1
6718030	Turner et al.	Apr 2004	B1
6782412	Brophy et al.	Aug 2004	B2
6820083	Nagy et al.	Nov 2004	B1
6937703	Andreason	Aug 2005	B1
6964370	Hagale et al.	Nov 2005	B1
7007074	Radwin	Feb 2006	B2
7031442	Neyman et al.	Apr 2006	B1
7035619	Fargano et al.	Apr 2006	B1
7035923	Yoakum et al.	Apr 2006	B1
7039165	Saylor et al.	May 2006	B1
7065184	Vishik et al.	Jun 2006	B2
7076036	Johnson	Jul 2006	B1
7089237	Turnbull et al.	Aug 2006	B2
7092509	Mears et al.	Aug 2006	B1
7120238	Bednarz et al.	Oct 2006	B1
7136875	Anderson et al.	Nov 2006	B2
7194531	Donker et al.	Mar 2007	B2
7213073	Slavin	May 2007	B1
7274781	Lipton et al.	Sep 2007	B2
7333976	Auerbach et al.	Feb 2008	B1
7441002	Catchpole et al.	Oct 2008	B1
7477730	Starbuck et al.	Jan 2009	B2
7496185	Primavesi et al.	Feb 2009	B1
7496189	Clarisse et al.	Feb 2009	B2
7536000	Ho	May 2009	B2
7567662	Renner et al.	Jul 2009	B1
7586908	Nelson et al.	Sep 2009	B2
7606221	Artru et al.	Oct 2009	B2
7664096	Doherty et al.	Feb 2010	B2
7664495	Bonner et al.	Feb 2010	B1
7685010	Goldberg et al.	Mar 2010	B2
7706522	Shaffer et al.	Apr 2010	B2
7711104	Flockhart et al.	May 2010	B1
7716263	Masek	May 2010	B2
7835510	Akachi	Nov 2010	B2
7844677	Asher et al.	Nov 2010	B1
7881454	Tuchman et al.	Feb 2011	B2
7920549	Alt et al.	Apr 2011	B2
7983404	Croak et al.	Jul 2011	B1
8098810	Lyman	Jan 2012	B2
8131872	Kennedy et al.	Mar 2012	B2
8132001	Patten et al.	Mar 2012	B1
8214265	Peters	Jul 2012	B2
8223941	White et al.	Jul 2012	B2
8341535	Lyman	Dec 2012	B2
8379832	Lyman	Feb 2013	B1
8495653	Lyman	Jul 2013	B2
8499246	Lyman	Jul 2013	B2
8571202	Lyman	Oct 2013	B2
8693659	Lyman	Apr 2014	B2
8719386	Lyman et al.	May 2014	B2
8780925	Otto et al.	Jul 2014	B2
8787548	Lyman	Jul 2014	B2
8832717	Lyman	Sep 2014	B2
20020009073	Furukawa et al.	Jan 2002	A1
20020029258	Mousseau et al.	Mar 2002	A1
20020035605	McDowell et al.	Mar 2002	A1
20020064149	Elliott et al.	May 2002	A1
20020116336	Diacakis et al.	Aug 2002	A1
20020120687	Diacakis et al.	Aug 2002	A1
20030002521	Traversat et al.	Jan 2003	A1
20030009530	Philonenko et al.	Jan 2003	A1
20030026414	Baker et al.	Feb 2003	A1
20030078986	Ayres et al.	Apr 2003	A1
20030219029	Pickett	Nov 2003	A1
20030228010	Clarisse et al.	Dec 2003	A1
20040001573	Gusler et al.	Jan 2004	A1
20040039889	Elder et al.	Feb 2004	A1
20040062383	Sylvain	Apr 2004	A1
20040083306	Gloe	Apr 2004	A1
20040088356	Sellen et al.	May 2004	A1
20040093387	Wick	May 2004	A1
20040107267	Donker et al.	Jun 2004	A1
20040133888	Ard et al.	Jul 2004	A1
20040141508	Schoeneberger et al.	Jul 2004	A1
20040170267	Seligmann	Sep 2004	A1
20040179672	Pagel et al.	Sep 2004	A1
20040203944	Huomo et al.	Oct 2004	A1
20040218747	Ranalli et al.	Nov 2004	A1
20040246331	Caspi et al.	Dec 2004	A1
20040260771	Gusler et al.	Dec 2004	A1
20040264670	Flores et al.	Dec 2004	A1
20040267887	Berger et al.	Dec 2004	A1
20050068166	Baker	Mar 2005	A1
20050068227	Caspi et al.	Mar 2005	A1
20050074101	Moore et al.	Apr 2005	A1
20050076095	Mathew et al.	Apr 2005	A1
20050105709	Dutronc et al.	May 2005	A1
20050111440	Artru et al.	May 2005	A1
20050135593	Becerra et al.	Jun 2005	A1
20050201362	Klein et al.	Sep 2005	A1
20050209861	Hewes et al.	Sep 2005	A1
20050220283	Ho	Oct 2005	A1
20050239501	Idnani et al.	Oct 2005	A1
20050243978	Son et al.	Nov 2005	A1
20050246588	Deng et al.	Nov 2005	A1
20060019655	Peacock	Jan 2006	A1
20060039545	Rahman et al.	Feb 2006	A1
20060093099	Cho	May 2006	A1
20060093121	Sylvain	May 2006	A1
20060100923	Courchesne	May 2006	A1
20060109811	Schotten et al.	May 2006	A1
20060117264	Beaton et al.	Jun 2006	A1
20060121916	Aborn et al.	Jun 2006	A1
20060140452	Raynor et al.	Jun 2006	A1
20060146870	Harvey et al.	Jul 2006	A1
20060147009	Greenlee et al.	Jul 2006	A1
20060166678	Karaoguz et al.	Jul 2006	A1
20060167747	Goodman et al.	Jul 2006	A1
20060177032	Abramson et al.	Aug 2006	A1
20060185004	Song et al.	Aug 2006	A1
20060195532	Zlateff et al.	Aug 2006	A1
20060210046	Smith	Sep 2006	A1
20060212519	Kelley et al.	Sep 2006	A1
20060256789	Otto et al.	Nov 2006	A1
20060256942	Gatzke et al.	Nov 2006	A1
20060288099	Jefferson et al.	Dec 2006	A1
20070011337	Brown et al.	Jan 2007	A1
20070061197	Ramer et al.	Mar 2007	A1
20070064913	Shaffer et al.	Mar 2007	A1
20070078708	Yu et al.	Apr 2007	A1
20070153747	Pan et al.	Jul 2007	A1
20070165640	Fitchett et al.	Jul 2007	A1
20070204218	Weber et al.	Aug 2007	A1
20070217434	Welbourn	Sep 2007	A1
20070244973	Pearson	Oct 2007	A1
20070264977	Zinn et al.	Nov 2007	A1
20070268506	Zeldin	Nov 2007	A1
20080025316	Zampiello et al.	Jan 2008	A1
20080031228	Gallant	Feb 2008	A1
20080101567	Baudino et al.	May 2008	A1
20080103907	Maislos et al.	May 2008	A1
20080126216	Flensted-Jensen et al.	May 2008	A1
20080130856	Ku et al.	Jun 2008	A1
20080147831	Redjaian et al.	Jun 2008	A1
20080162701	Ryabchun et al.	Jul 2008	A1
20080215428	Ramer et al.	Sep 2008	A1
20080219423	Lyman	Sep 2008	A1
20080222174	Lyman	Sep 2008	A1
20080222549	Lyman	Sep 2008	A1
20080222656	Lyman	Sep 2008	A1
20080275785	Altberg et al.	Nov 2008	A1
20080313543	Altberg et al.	Dec 2008	A1
20090012373	Raij et al.	Jan 2009	A1
20090019094	Lashley et al.	Jan 2009	A1
20090022149	Rosenberg et al.	Jan 2009	A1
20090043657	Swift et al.	Feb 2009	A1
20090074159	Goldfarb et al.	Mar 2009	A1
20090076917	Jablokov et al.	Mar 2009	A1
20090080411	Lyman	Mar 2009	A1
20090100047	Jones et al.	Apr 2009	A1
20090106427	Plumb	Apr 2009	A1
20090116443	Walker et al.	May 2009	A1
20090141884	Lyman	Jun 2009	A1
20090170519	Wilhoite et al.	Jul 2009	A1
20090275314	Cotevino et al.	Nov 2009	A1
20100174807	Lyman et al.	Jul 2010	A1
20100211660	Kiss et al.	Aug 2010	A1
20100232585	Lyman	Sep 2010	A1
20100235223	Lyman	Sep 2010	A1
20100287481	Sawada et al.	Nov 2010	A1
20110286444	Petrovykh	Nov 2011	A1
20120266080	Zellner et al.	Oct 2012	A1
20130022038	Cadiz et al.	Jan 2013	A1
20130108035	Lyman	May 2013	A1
20130148800	Lyman	Jun 2013	A1
20130243181	Sirstins et al.	Sep 2013	A1
20130268866	Lyman	Oct 2013	A1
20130268948	Lyman	Oct 2013	A1
20140029745	Lyman	Jan 2014	A1

Foreign Referenced Citations (3)

Number	Date	Country
WO2004049121	Jun 2004	WO
WO2005036330	Apr 2005	WO
WO2006020168	Feb 2006	WO

Non-Patent Literature Citations (9)

Entry
Non-Final Office Action dated Oct. 27, 2014, on U.S. Appl. No. 12/405,197.
Advisory Action dated Nov. 7, 2014, on U.S. Appl. No. 12/405,204.
Parmar, Rashik “Enhanced Enterprise Communication: Transforming the bank into a proactive relationship center.” IBM Global Services. May 2004.
Montgomery, Warren & Copeland, Rebecca “Network Intelligence for Presence Enhanced Communication.” Nov. 2001. http://tools.ietf.org/id/draft-montgomery-copeland-presence-spirits-00.txt.
Ott, Jorg “Presence Aggregation in Endpoints.” Technologie-zentrum Informatik, Jan. 2003.
Broder, et al., Search Advertising Using Web Relevance Feedback, 2008, pp. 1013-1022, Conference on Information and Knowledge Management, Proceeding of the 17th AC conference on Information and Knowledge Management. Yahoo Research. Oct. 2008.
Hull, et al., “Enabling Context-Aware and Privacy-Conscious User Data Sharing”, 2004, Proceedings of the 2004 IEEE International Conference on Mobile Data Management. Aug. 2004. Accessed Aug. 2011. http://ieeexplore.ieee.org/xpl/freeabs—all.jsp?arnumber=1324414.
Inter-Tel, Inc. “Advanced Applications Design Guide for Contact Center Suite.” Issue 1. Apr. 2006.
User Guide, “What is Xact View? Xact View User Guide”, Schmooze Communications LLC 2008. Accessed Aug. 2011. www.schmoozecom.com. http://literature.schmoozecom.com/XactView/UserGuide/UserGuideXactView.pdf.

Related Publications (1)

	Number	Date	Country
	20110306298 A1	Dec 2011	US

Provisional Applications (1)

	Number	Date	Country
	60906024	Mar 2007	US

Continuations (1)

	Number	Date	Country
Parent	12069083	Feb 2008	US
Child	13213020		US

Continuation in Parts (1)

	Number	Date	Country
Parent	11827314	Jul 2007	US
Child	12069083		US

Intelligent presence management in a communication routing system

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