WO2014151892A1 - Seamless device configuration in a communication network - Google Patents
Seamless device configuration in a communication network Download PDFInfo
- Publication number
- WO2014151892A1 WO2014151892A1 PCT/US2014/026625 US2014026625W WO2014151892A1 WO 2014151892 A1 WO2014151892 A1 WO 2014151892A1 US 2014026625 W US2014026625 W US 2014026625W WO 2014151892 A1 WO2014151892 A1 WO 2014151892A1
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- WIPO (PCT)
- Prior art keywords
- access point
- network
- credential
- device credential
- network device
- Prior art date
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/08—Network architectures or network communication protocols for network security for authentication of entities
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/08—Network architectures or network communication protocols for network security for authentication of entities
- H04L63/083—Network architectures or network communication protocols for network security for authentication of entities using passwords
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W12/00—Security arrangements; Authentication; Protecting privacy or anonymity
- H04W12/06—Authentication
- H04W12/068—Authentication using credential vaults, e.g. password manager applications or one time password [OTP] applications
Definitions
- Embodiments of the inventive subject matter generally relate to the field of communication systems and, more particularly, to configuring communication devices for use within a communication network.
- a user of a network device can be required to authenticate to an access point to gain access to network resources available through the access point.
- the authentication procedure can use security credentials provided by the user to control access and prevent unauthorized usage.
- Typical authentication steps can include entering codes or other information by the user as the network device comes within communication range of the access point.
- a method comprises: receiving, at a terminal in a first network, a device credential associated with a network device; identifying an authentication recipient in a second network to receive the device credential; and sending, from the terminal to the identified authentication recipient, the device credential, wherein the device credential is used to authenticate the network device for operation with an access point prior to the network device communicating with the access point.
- the authentication recipient is a cellular modem integrated within the access point.
- the access point receives the device credential through a short message service (SMS) message.
- SMS short message service
- the method further comprises verifying a source of the SMS message and ignoring the SMS message when the source is not from a known retailer.
- the authentication recipient is identified by a phone number.
- the authentication recipient is a cellular phone.
- the cellular phone forwards the device credential to the access point.
- the forwarding occurs after detecting an input at the cellular phone indicative of approval that the network device associated with the device credential shall be allowed to authenticate with the access point.
- the device credential is stored in the network device when the network device is manufactured.
- the device credential is a Personal Identification Number or Device Password associated with the network device at a time of manufacture.
- the identifying the authentication recipient comprises using a scanner to read a quick response (QR) code placed on a package of the network device.
- QR quick response
- the identifying the authentication recipient comprises using a scanner to read a barcode placed on a package of the network device.
- the device credential is included in a near field communication (NFC) tag.
- NFC near field communication
- the method further comprises receiving a validation phrase in response to sending the device credential.
- the device credential is an encrypted device credential.
- the method further comprises sending, from the terminal to a decryption device, the encrypted device credential, wherein the decryption device decrypts the encrypted device credential and provides the decrypted device credential to the authentication recipient.
- the method further comprises sending an identity of the authentication recipient to the decryption device.
- the authentication recipient is identified with a phone number.
- the sending, from the terminal to the decryption device, the encrypted device credential further comprises detecting an input at the authentication recipient indicative of approval that the network device associated with the decrypted device credential shall be allowed to authenticate with the access point.
- a method comprises: generating, at a terminal in a first network, a one-time password; sending the one-time password to a network device in a second network, wherein one-time password is stored in the network device; identifying an
- authentication recipient ; and sending the one-time password to the authentication recipient, wherein the one-time password is used to authenticate the network device for operation with an access point prior to the network device communicating with the access point.
- the authentication recipient is identified by a phone number.
- the access point receives the one-time password through a short message service (SMS) message.
- SMS short message service
- the authentication recipient is a cellular phone.
- the cellular phone forwards the one-time password to the access point.
- the forwarding occurs after detecting an input at the cellular phone indicative of approval that the network device associated with the one-time password shall be allowed to authenticate with the access point.
- a method comprises: receiving, at an access point in a first network, a device credential associated with a network device, wherein the device credential is determined at a point of sale terminal when the network device is sold; and authenticating, the network device for use in a second network with the access point prior to the network device communicating with the access point.
- the receiving, at the access point in the first network, the device credential associated with the network device further comprises receiving the device credential from an authentication recipient.
- the authentication recipient is a cell phone.
- the receiving, at the access point in the first network, the device credential associated with the network device further comprises receiving the device credential through a short message service (SMS) message.
- SMS short message service
- the receiving, at the access point in the first network, the device credential associated with the network device further comprises receiving the device credential from the point of sale terminal.
- the device credential is a PIN code.
- a method comprises: receiving, at a computing server from a point of sale terminal in a first network, a first device credential associated with an access point; associating a first user identifier with the access point; receiving, at the computing server from a terminal in a second network, a second device credential associated with a network device; associating a second user identifier with the network device; and sending the second device credential to the access point to authenticate the network device with the access point when the first user identifier is associated with the second user identifier prior to the network device communicating with the access point.
- the associating the second user identifier with the network device further comprises receiving the second user identifier from a second point of sale terminal.
- the first device credential is a serial number.
- the method further comprises sending, the first device credential to a manufacturer of the access point in response to receiving the first device credential; and receiving a public encryption key associated with the access point.
- the sending the second device credential to the access point further comprises sending the second device credential through a secure connection to the access point.
- the method further comprises storing a private encryption key in the access point.
- the second device credential is a personal identification number (PIN) code.
- PIN personal identification number
- the method further comprises storing the first device credential, the first user identifier, the second device credential and the second user identifier in a database at the computing server.
- the first user identifier and the second user identifier are associated with different users.
- a system comprises: a terminal configured to receive, in a first network, a device credential associated with a network device; an authentication recipient, in a second network, configured to receive the device credential from the terminal; and an access point configured to receive the device credential from the authentication recipient and authenticate the network device for operation with the access point prior to the network device communicating with the access point.
- the authentication recipient is further configured to provide the device credential to the access point after detecting an input indicative of approval that the network device associated with the device credential shall be allowed to authenticate with the access point.
- the authentication recipient is further configured to forward the device credential to the access point through a short message service (SMS) message.
- SMS short message service
- the access point comprises a cellular modem configured to receive the SMS message from the authentication recipient.
- the device credential is encrypted.
- the system further comprises a decryption device, wherein the terminal is further configured to send the encrypted device credential to the decryption device and the decryption device decrypts the encrypted device credential and provides a decrypted device credential to the authentication recipient.
- the authentication recipient is further configured to provide the decrypted device credential to the access point after detecting an input indicative of approval that the network device associated with the decrypted device credential shall be allowed to authenticate with the access point
- a non-transitory machine -readable storage media having instructions stored therein, which when executed by one or more processors causes the one or more processors to perform operations that comprise: receiving, at a terminal in a first network, a device credential associated with a network device; identifying an authentication recipient in a second network to receive the device credential; and sending, from the terminal to the identified authentication recipient, the device credential, wherein the device credential is used to authenticate the network device for operation with an access point prior to the network device communicating with the access point.
- the non-transitory machine-readable storage media further comprises forwarding the device credential from the authentication recipient to the access point.
- the forwarding the device credential from the authentication recipient to the access point further comprises detecting an input at the authentication recipient indicative of approval that the network device associated with the device credential shall be allowed to authenticate with the access point.
- the sending, from the terminal to the identified authentication recipient, the device credential further comprises forwarding the device credential through a short message service message (SMS).
- SMS short message service message
- the device credential is encrypted.
- the non-transitory machine-readable storage media further comprises sending, from the terminal to a decryption device, the encrypted device credential, wherein the decryption device decrypts the encrypted device credential and provides the decrypted device credential to the authentication recipient.
- the sending, from the terminal to a decryption device, the encrypted device credential further comprises detecting an input at the authentication recipient indicative of approval that the network device associated with the decrypted device credential shall be allowed to authenticate with the access point.
- Figure 1 is a system diagram illustrating one embodiment of a seamless device configuration method used in a communication network.
- Figures 2A - 2B are system diagrams illustrating embodiments of a seamless device configuration method used in a communication network.
- Figure 3A - 3B show flow diagrams illustrating exemplary operations for seamless device configuration in a communication network.
- Figure 4 is a system diagram illustrating yet another embodiment of a seamless device configuration method used in a communication network.
- Figure 5 is a flow diagram illustrating another embodiment of example operations for seamless device configuration in a communication network.
- Figures 6A-6C a system diagram illustrating still another embodiment of a seamless device configuration method in a communication network.
- Figure 7 is a flow diagram illustrating yet another embodiment of example operations for seamless device configuration in a communication network.
- Figure 8 is a block diagram of an exemplary embodiment of an electronic device including a wireless interface for network communications.
- Seamless device configuration can reduce or eliminate any required user interaction and simplify user access while maintaining a controlled access environment.
- One embodiment of a method for seamless configuration of network devices for use with a communication network can authenticate a network device with an access point prior to the network device being connected to the access point. Authentication can enable the network device to access resources connected to networks accessible through the access point such as data storage, printers, cloud- based resources, internet access, etc.
- a device credential associated with the network device can be stored within the access point before the network device is within communication range of the access point.
- the access point can also store device credentials associated with other network devices.
- the access point can use the device credential to authenticate the network device without sharing (transmitting) the device credential.
- the access point can proves its possession of the device credential to the network device using operations based on, at least in part, Diffie-Hellman, Simultaneous Authentication of Equals (SAE), Wi-Fi Protected Setup (WPS) or any other technically feasible authentication protocol based on the device credential. If the access point does not authenticate the network device, then the access point can refuse network access for the network device. In this manner, permission to gain access to the access point can be transparent to the user, without the user having to enter codes or passwords.
- SAE Simultaneous Authentication of Equals
- WPS Wi-Fi Protected Setup
- the device credential can be entered and stored into the access point directly through a communication interface at the access point, or the device credential can be entered indirectly through a trusted device, such as a smart phone. That is, for indirect entry, the device credential can first be sent to a trusted device, other than the access point. The trusted device can forward the device credential to the access point. In one embodiment, the trusted device can forward the device credential after access is approved by the user or a third party.
- a one-time password can be assigned to the network device.
- the one-time password can be stored directly or indirectly in the access point as described above.
- the access point can authenticate the network device using the one-time password. For example, the access point can prove its possession of the device credential to the network device using operations based on, at least in part, Diffie-Hellman, Simultaneous Authentication of Equals (SAE), Wi-Fi Protected Setup (WPS) or any other technically feasible authentication protocol based on the device credential.
- SAE Simultaneous Authentication of Equals
- WPS Wi-Fi Protected Setup
- the one-time password can be more secure than the device credential because the one-time password can be generated, assigned and transmitted through secure channels, making it more difficult to clone or spoof.
- a Central Authority can track the association of network devices, access points and users. For example, when the user purchases an access point, an access point device identifier can be associated with a user (such as through a user ID). The association can be stored in a database by the Central Authority. When a network device is purchased by the user, a network device credential associated with the network device can be associated with the user and again stored by the Central Authority in the database. The Central Authority can determine when a network device can be seamlessly authenticated with an access point by matching user IDs associated with the network devices with user IDs associated with access points. The Central Authority can send the network device credential to be stored in the access point.
- the access point and network device can mutually authenticate using the device credential.
- the access point can prove its possession of the device credential to the network device using operations based on, at least in part, Diffie-Hellman, Simultaneous Authentication of Equals (SAE), Wi-Fi Protected Setup (WPS) or any other technically feasible authentication protocol based on the device credential.
- SAE Simultaneous Authentication of Equals
- WPS Wi-Fi Protected Setup
- FIG. 1 is a system diagram 100 illustrating one embodiment of a seamless device configuration method used in a communication network.
- a device credential can be associated with network device 102.
- the device credential can be stored within network device 102 and can also be transmitted directly to a network gateway such as access point 106.
- access point 106 can authenticate network device 102 when network device 102 proves its possession of the device credential to access point 106.
- Network device 102 can be a network device and can take the form of any technically feasible device that can transfer data through a communication network.
- Exemplary network devices 102 can be smart phones, laptops, netbooks, tablet computers, smart thermostats, smart home appliances (furnaces, stereos, network capable televisions, etc.) and the like.
- network devices 102 can be devices with wireless interfaces such as interfaces that conform to ZigBee ® , IEEE 802.11 standards or Bluetooth ® enabled devices.
- network device 102 can take the form of a wired device such as one that communicates over Ethernet or a device that includes an interface that can conform with a powerline
- a device credential of network device 102 can be determined.
- the device credential can be determined when the network device is sold.
- Examples of device credentials can be a serial number or a personal identification number (PIN) code or any technically feasible code or string that can be used to identify network device 102.
- PIN personal identification number
- the device credential can be read from packaging surrounding network device 102.
- the device credential can be assigned to network device 102 when the device is manufactured.
- the device credential can be encoded and printed as a quick response (QR) code, barcode or other machine readable code (not shown) on the packaging of network device 102.
- QR quick response
- the device credential can be determined by simply reading the QR code with a camera, smart phone, scanner or other QR code reader.
- a machine readable code such as a QR code
- a machine readable code such as a QR code
- a machine readable code such as a QR code
- a near field communication (NFC) tag (not shown) containing the device credential can be provided by the manufacture and attached to, or located proximate to network device 102.
- the NFC tag can be read by a NFC tag reader to determine the device credential.
- Using the NFC tag can also reduce errors in determining device credentials of network device 102.
- access point 106 can be identified by the user or purchaser of network device 102.
- Access point 106 can function as a gateway or entry point for a network. By identifying access point 106, the user or purchaser can indicate that he/she desires network device 102 to access a network and/or network resources through access point 106.
- Access point 106 can include access interface 112.
- Access interface 112 can provide a communication interface to network device 102.
- Access interface 112 can be implemented a wireless interface such as a WiFi interface conforming to IEEE 802.11 specifications, ZigBee, WiMAX, Bluetooth and others.
- access interface 112 can be any technically feasible wired interface such as Ethernet, power line communications (PLC) such as those specified by the HomePlug Alliance and others.
- PLC power line communications
- Access point 106 can also include second interface 110.
- second interface 110 can provide an independent communication interface to access point 106.
- second interface 110 can be implemented with a cellular radio or modem. In this manner, access point 106 can be identified with a phone number and can receive SMS (short message service) messages.
- second interface 110 can be provided with other interfaces such as a wired connection to other networks, such as a cloud network, or other network related resources such as Internet based networks.
- access point 106 can support a short message service (SMS) client through an Internet connection. The SMS client can be associated with a phone number and can receive SMS messages without the need for a cellular radio. Thus, access point 106 can again be identified with a phone number, even when access point 106 does not include a cellular radio. In still other embodiments, access point 106 can be identified with an email address.
- SMS short message service
- the device credential (as described in stage A) is sent to access point 106.
- the device credential can be sent by a seller or retailer involved at point of sale terminal 104 when network device 102 is purchased and the access point 106 is identified.
- the device credential can be sent via a SMS message addressed to the phone number associated with access point 106.
- the SMS message can be received by second interface 110 of access point 106, particularly when second interface 110 includes a cellular modem or interface.
- the SMS message can be sent to a SMS client associated with access point 106, such as a SMS client running on a processor included in access point 106.
- the device credential can be sent at a time of sale of network device 102.
- the sale can be provided by a seller operating a "brick and mortar" type of retail store.
- the sale of network device 102 can by through an online seller. In both cases, the seller can send the device credential to an identified access point 106 through an SMS message.
- second interface 110 of access point 106 can be identified with a descriptor device.
- the descriptor device can ease the task of identifying access point 106 for the user by providing a user friendly tool for providing the phone number associated with access point 106 to a registrar so that the device credential can be sent to access point 106.
- a descriptor device can be a card with a magnetic stripe that can be provided to the user/owner of access point 106 (when access point 106 is purchased or deployed) and can include the phone number associated with access point 106. In this manner, access point 106 can be identified by reading the magnetic stripe on the card. The magnetic stripe card can reduce errors that may be associated with identifying access point 106.
- an NFC device including the phone number associated with access point 106 can be provided to the user/owner of access point 106.
- the provided NFC device can be used to provide the phone number to identify access point 106.
- Descriptor devices can simplify stage B related processes by providing a simpler and more error free method for determining the phone number associated with access point 106.
- access point 106 can receive the device credential and store the device credential within access point 106.
- the device credential can be received through second interface 110 or access interface 112.
- the recipient of the device credential can be referred to as an authentication recipient.
- access point 106 can receive the SMS message through second interface 110 when second interface includes a cellular radio or modem.
- a SMS message can be received through second interface 110 when a SMS client is provided within second interface 110.
- the device credential can be stored in memory within access point 106 such as random access memory (RAM), flash RAM, EEPROM, or any other persistent or semi- persistent storage device.
- the source of the SMS message before accepting the contents of the SMS message, can optionally be verified. For example, if the SMS message is received from a trustworthy source, such as a known retailer, then access point 106 can accept the contents of the SMS message. Known retailers can be determined by comparing the sending SMS phone numbers against a list of verified retailers. The source of the SMS message can be determined by reviewing the sending phone number associated with the SMS message. Verifying the sender of the SMS message can help prevent false or spoofed messages from being accepted by access point 106.
- a trustworthy source such as a known retailer
- access point 106 can accept the contents of the SMS message.
- Known retailers can be determined by comparing the sending SMS phone numbers against a list of verified retailers.
- the source of the SMS message can be determined by reviewing the sending phone number associated with the SMS message. Verifying the sender of the SMS message can help prevent false or spoofed messages from being accepted by access point 106.
- access point 106 can send a validation phrase back to the sender of the SMS message.
- the validation phrase can include a phrase or numbers to acknowledge successful receipt of the SMS message including the device credential information.
- the validation phrase can be used to help determine when the SMS message including the network device credential has been sent to an incorrect phone number. For example, when the user identifies access point 106 with a phone number associated with access point 106, a SMS message can be sent to access point 106. If the validation phrase returned from access point 106 is not a phrase that is expected, then the purchase can determine that the device credential may have sent to an incorrect phone number. The sender of the SMS message can take appropriate steps to correct the issue.
- network device 102 can enter communication range of access point 106. For example, if network device 102 is a wireless device, network device 102 can be moved to a position such that radio signals can be transmitted and received between network device 102 and access point 106. Alternatively, if network device 102 is a wired device, then network device 102 can be within communication range when network device 102 is coupled to access point 106 through a wire, powerline or cable.
- network device 102 and access point 106 can mutually authenticate using device credential.
- network device 102 can prove its possession of the device credential to access point 106 (using device credentials stored within access point 106).
- Device credentials can be received and stored in access point 106 as described in stage D above.
- Proof of possession of the device credential can be based on, at least in part, Diffie-Hellman,
- SAE Simultaneous Authentication of Equals
- WPS Wi-Fi Protected Setup
- any other technically feasible authentication protocol based on the device credential.
- network device 102 can be authenticated with access point 106.
- network device 102 can access networks coupled directly or indirectly to access point 106.
- network device 102 can communicate with access point 106 through access interface 1 12 while second interface 1 10 can access and communicate directly or indirectly with other networks.
- Figure 1 can be referred to as a direct method since the device credential is provided directly to access point 106.
- the direct method can be straightforward and require little, if any, user interaction.
- An indirect method can offer an increased level of security by sending the device credential to a trusted device for verification prior to forwarding to access point 106. The indirect method is described below in conjunction with Figure 2.
- Figures 2 A and 2B are system diagrams 200 and 250 illustrating embodiments of a seamless device configuration method used in a communication network.
- System diagram 200 shows a system without encrypted device credentials.
- System diagram 250 differs slightly from system diagram 200 since system diagram 250 includes encrypted device credentials.
- the device credential associated with network device 102 is determined. This is similar to stage A as described in Figure 1 above.
- user device 202 can be identified for receiving the device credential.
- User device 202 can be a trusted device such as a smart phone, tablet computer or any other technically feasible device that can receive the device credential and can communicate with access point 106 as described below in conjunction with stages C and D.
- User device 202 can be referred to as an authentication recipient because device credentials can be received thereby.
- user device 202 can be identified with a phone number.
- user device 202 can include a cellular phone or modem or can include a SMS client running on a processor included in user device 202 that can be configured to respond to a phone number.
- user device 202 can be identified with an email address. Descriptor devices as described in conjunction with stage A of Figure 1 can also be used to identify user device 202.
- the device credential determined in stage A can be sent to user device 202.
- the device credential can be sent by a seller or retailer involved at point of sale terminal 104 when network device 102 is purchased.
- the device credential can be sent via a SMS message addressed to the phone number associated with user device 202 (particularly when user device 202 can be identified with a phone number).
- the device credential can be sent through an email message, Uniform Resource Locator (URL), social media notification messages, operating system notification messages, or any other technically feasible messaging protocol to user device 202.
- URL Uniform Resource Locator
- the device credential can be forwarded to access point 106 from user device 202.
- the forwarding is not automatic, but rather can involve user interaction to review the device credential at user device 202 and actively forward the device credential to access point 106.
- the user receiving the device credential at user device 202 needs not be the owner or user of network device 102, but instead can be an owner, user or
- Actions at user device 202 can configure access point 106 to authorize the user of network device 102 to have access to access point 106 as well as networks directly or indirectly coupled to access point 106. Since the device credential is sent indirectly to access point 106 through user device 202, an extra layer of security can be realized by requiring an active action on the part of a third party to actively forward the device credential to access point 106. [0093] In one embodiment, user device 202 can forward the device credential to access point 106 through access interface 112.
- both user device 202 and access point 106 can include a cellular radio or modem (i.e., second interface 110 can include the cellular radio or modem) that can be used to forward and receive the device credential.
- second interface 110 can include the cellular radio or modem
- user device 202 can forward the device credential via a SMS message that can be received through second interface 110 of access point 106.
- stages E and F can be similar to the like named stages described in Figure 1 above.
- the encrypted device credential associated with network device 102 is determined. This can be similar to stage A as described in Figure 1.
- the device credential can be encrypted. Encrypting the device credential can add a level of security by obfuscating the device credential, particularly when the device credential is available on packaging surrounding network device 102 or can be read from barcode or QR code.
- the device credential can be encrypted with asymmetric encryption such as an encryption method that uses public and private encryption keys.
- the device credential can be encrypted with symmetric encryption method using a shared encryption key.
- user device 202 can be identified for receiving the device credential.
- user device 202 can be identified with a phone number. In another
- user device 202 can be identified with an email address.
- the encrypted device credential and a user device 202 identifier (determined in stage B) can be sent to server 255.
- server 255 can verify a sender identity of the encrypted device credential to help prevent from using server 255 from unauthorized or malicious use. For example, server 255 can verify that the encrypted device credential was sent by a known point of sale terminal 104 or an associated trusted server.
- server 255 can decrypt the encrypted device credential and then send the decrypted device credential to user device 202.
- Server 255 can decrypt the device credential with an appropriate decryption method (symmetric or asymmetric, determined, at least in part, by a selected encryption method). In one
- server 255 can send the decrypted device credential to a phone number used to identify user device 202 in stage B.
- the decrypted device credential can be sent through an email message, Uniform Resource Locator (URL), social media notification messages, operating system notification messages, or any other technically feasible messaging protocol to user device 202.
- the decrypted device credential can be forwarded to access point 106 from user device 202.
- Actions at user device 202 (the forwarding of the device credential) can configure access point 106 to authorize the user of network device 102 to have access to access point 106 as well as networks directly or indirectly coupled to access point 106.
- user device 202 can forward the decrypted device credential through access.
- network device 102 can enter communication range of access point 106.
- network device 102 can authenticate with access point 106 using device credentials stored within access point 106. In one embodiment, this can be similar to stage F as described above in Figure 1.
- network device 102 can communicate with access point 106 through access interface 112 while second interface 110 can access and communicate directly or indirectly with other networks.
- Figures 3 A and 3B show flow diagram 300 illustrating exemplary operations for seamless device configuration in a communication network.
- the method of Figure 3 is described with reference to the systems and components described in Figures 1 and 2 (for illustration purposes and not as a limitation).
- the example operations can be carried out by one or more components in system 100 or 200, such as terminal 104, a processor within network device 102, access point 106 or by user device 202.
- the device credential associated with network device 102 can be determined.
- the device credential can be a serial number, PIN code or any technically feasible code or string that can identify network device 102.
- the device credential can be a machine readable code such as a QR code, bar code or NFC tag that can be scanned to retrieve the device credential.
- access point 106 is identified.
- access point 106 can be identified with a phone number, email address or any other technically feasible means.
- the flow can proceed to block 306 where the determined device credential is sent to the identified access point 106.
- the device credential is sent via a SMS message to access point 106.
- Access point 106 can include a cellular radio or modem that can be configured to receive SMS messages or access point 106 can include a SMS client running on a processor that can receive SMS messages.
- access point 106 can receive the device credential through an email message.
- Access point 106 can include memory such as RAM, flash RAM, EEPROM, or any other persistent or semi-persistent storage device that can be used to store the received device credential.
- network device 102 can enter communication range of access point 106. If network device 102 and access point 106 both include wireless interfaces, then when network device 102 can be moved to a position such that radio signals can be transmitted and received between network device 102 and access point 106. In another embodiment, if network device 102 and access point 106 both include a wire-based interface such as cable-based Ethernet or PLC, then network device 102 can be within communication range of access point 106 when a wire-based connection is established between them.
- a wire-based interface such as cable-based Ethernet or PLC
- access point 106 and network device 102 can mutually authenticate using the device credential.
- network device 102 can prove its possession of the device credential to access point 106 and the flow ends.
- user device 202 can be identified.
- user device 202 can be identified with a phone number, particularly when user device 202 is a smart phone.
- user device 202 is identified with an email address.
- User device 202 can be any technically feasible device that can receive messages and can communicate with access point 106 such as a laptop, tablet computer or similar device. Proceeding to block 317, if the device credential is not encrypted, then flow proceeds to block 318 where the device credential can be sent to the identified user device 202. In one
- the device credential can be sent via a SMS message. In another embodiment, the device credential can be sent through an email message. [00103] Proceeding to block 320, a user, administrator or owner associated with access point 106 can forward the device credential from user device 202 to access point 106 and the flow can proceed to block 308 as described above.
- server 255 can decrypt the encrypted device credential. Decryption can be asymmetric or symmetric decryption based, in part, on the encryption used when the device credential was formed as was described in stage A of Figure 3B. After the device credential is decrypted, the flow can proceed to block 318.
- block 303 is shown in flow diagram 300, in some implementations the operations described in conjunction with block 303 can be omitted. For example in a first embodiment, operations according to blocks 302, 304, 306, 308, and 310 can be performed while in a second embodiment, operations according to blocks 302, 316, 317, 319, 318, 320, 308, and 310 can be performed. In both the first and second embodiments described above, decision block 303 would not actively be performed.
- FIG 4 is a system diagram 400 illustrating yet another embodiment of a seamless device configuration method used in a communication network.
- a one-time password can be generated and provided to network device 102 and to access point 106 replacing the use of the device credential described in Figures 1 and 2.
- Using a one-time password can be more secure than the device credential because the one-time password can be generated, assigned and transmitted through secure channels to the network device 102 and access point 106 making it relatively more difficult to clone or spoof.
- a one-time password can be generated.
- the one-time password can include letters, numbers or symbols and can be of a predetermined or variable length.
- the one-time password can be generated by the point of sale terminal 104.
- the one-time password can be generated by the purchaser or user of network device 102.
- the purchaser or user can have an application that can run on a smart phone, tablet computer or other technically feasible device that can generate the one-time password.
- the one-time password can be displayed as a barcode by a smart phone application.
- the one-time password is stored in network device 102.
- network device 102 can be connected to an activation platform to receive the onetime password.
- connection between network device 102 and the activation platform can be a cable, such as a USB cable or the connection can be a secure (encrypted) link.
- a secure (encrypted) connection By using a secure (encrypted) connection, the integrity and security of the one-time password is enhanced.
- the one-time password can be sent to network device 102 through a Secure Digital (SD) card, or using NFC protocols and devices.
- SD Secure Digital
- the one-time password can be stored in a memory included in network device 102.
- the memory can be RAM, flash RAM, EEPROM, or any other persistent or semi-persistent storage device.
- user device 202 can be identified.
- User device 202 can be used to indirectly send the one-time password to access point 106 in a similar manner as described above in conjunction with Figure 2.
- User device 202 can include a cellular phone or modem or can include a SMS client running on a processor that can be identified with a phone number.
- user device 202 can be identified with an email address.
- Device descriptors as described in conjunction with Figure 1 can also be used to identify user device 202.
- the one-time password can be sent to user device 202.
- point of sale terminal 104 can generate and send the one-time password to user device 202.
- the one-time password can be generated by an application running on a device such as a smart phone or tablet computer, then the one-time password can be sent from the device (smart phone, tablet computer, etc.) directly to the user device 202.
- the one-time password can be forwarded to and stored within access point 106 from user device 202.
- This can be similar to stage D described above in conjunction with Figure 2.
- User device 202 can forward one-time password to access point 106 through access interface 112.
- access interface 112 is a WiFi interface
- user device 202 also includes a WiFi interface and has previously authenticated with access point 106
- user device 202 can forward the one-time password to access point 106 through access interface 112.
- both user device 202 and access point 106 includes a cellular radio or modem included in second interface 110, then user device 202 can forward the one-time password to access point 106 through an SMS message.
- forwarding of the one-time password is not automatic, but rather involves user interaction to review the one-time password at user device 202 and actively forward the one-time password to access point 106.
- the user receiving the one-time password at user device 202 need not be the owner or user of network device 102, but instead can be an owner, user or administrator of access point 106.
- Actions at user device 202 can be seen as actions to authorize the user of network device 102 to have access to access point 106 as well as networks directly or indirectly coupled to access point 106. Since the one-time password is sent indirectly to access point 106 through user device 202, an extra layer of security can be realized by requiring an active action on the part of a third party to actively forward the one-time password to access point 106.
- network device 102 can enter communication range of access point 106. This stage can be similar to as described for stage E in Figures 1 or 2 above.
- network device 102 and access point 106 can mutually authenticate. For example, network device can authenticate with access point 106 when network device 102 proves its possession of the one-time password to access point 106. This stage can be similar to as described for stage F in Figures 1 or 2 above.
- Figure 5 is a flow diagram 500 illustrating another embodiment of example operations for seamless device configuration in a communication network.
- the method of Figure 5 is described with reference to the systems and components described in Figure 4 (for illustration purposes and not as a limitation).
- the example operations can be carried out by one or more components in system 400 such as terminal 104, a processor within network device 102 or access point 106 or by user device 202.
- the one-time password can be generated. In one
- the one-time password can be generated by a user through an application running on a smart phone or other technically feasible device. In another embodiment, the one-time password can be generated on a terminal involved during the sale of network device 102, such as point of sale terminal 104. Proceeding to block 504, the one-time password can be sent to and stored in network device 102. In one embodiment, the one-time password is sent through a secure connection to network device 102. In another embodiment, the one-time password is sent to network device 102 through a SD card or NFC device. The one-time password can be stored in a memory included in network device 102. The memory can be RAM, flash RAM, EEPROM, or any other persistent or semi-persistent storage device.
- the one-time password can be sent to user device 202.
- user device 202 can be a smart phone, tablet computer or any other technically feasible device.
- the one-time password can be forwarded from user device 202 to access point 106. This step can enable a confirmation of the access for network device 102.
- access point 106 can receive and store one-time password within access point 106.
- one-time password can be stored in a memory included within access point 106.
- network device can enter communication range of access point 106.
- network device 102 and access point 106 can mutually authenticate using one-time password stored within access point 106 and the flow ends. In one embodiment, this can be similar to stage F as described above in Figure 1.
- the embodiments shown in Figures 4 and 5 describe an indirect storing of the onetime password into access point 106 similar to the indirect methods shown and described in Figures 2 and 3.
- the one-time password can be directly stored into access point 106 by simply sending the one-time password directly to access point 106 instead of going through the intermediate device of user device 202.
- the one-time password can be sent directly to access point 106 and block 508 can be omitted altogether.
- FIG. 6A-6C is a system diagram 600 illustrating still another embodiment of a seamless device configuration method in a communication network.
- a central authority can be used to maintain a database of access points, network devices and users.
- the central authority can associate a network device with an access point when the users associated with these devices can themselves be associated with each other. For example if a user identifier (user ID) associated with a particular access point matches (or is linked to) a user ID associated with a particular network device, and then the central authority can enable the access point to authenticate the network device.
- the central authority can send a device credential (such as a PIN code, for example) associated with the network device to the access point.
- the access point can authenticate the network device when the network device proves its possession of the device credential to the access point.
- the central authority can send the device credential to the access point before the network device enters within a communication range of the access point.
- access point manufacturer 602 can assign a serial number 632 and public and private encryption keys (634 and 636 respectively) to access point 106.
- the use of encryption keys 634, 636 are not essential for the practice of the embodiment described herein; however as will be described below, the encryption keys 634, 636 can enhance protection by protecting access point 106 from unauthorized access.
- the private encryption key 636 and serial number 632 can be stored within access point 106.
- Access point manufacturer 602 can maintain a list (not shown) including the serial numbers of access point 106, and the related public 634 and private 636 encryption keys. After the manufacture of access point 106, access point 106 can be shipped to a seller, reseller, online merchant, etc.
- access point 106 When access point 106 is sold to a user, such as user 608, database 606 maintained by central authority 604 can be updated. To this end, at stage B, the seller of access point 106 can send access point serial number 632, and user ID 630 of user 608 to central authority 604.
- Access point 106 can be sold at a terminal, such as point of sale terminal 104, or can be sold online.
- Access point serial number 632 can be determined by examining the packaging or case of access point 106, or in other embodiments, by scanning a label such as a barcode label or a QR code sticker (not shown).
- Central authority 604 can store user ID 630 and access point serial number 632 in database 606.
- central authority 604 can send the determined access point serial number 632 to access point manufacturer 602.
- access point manufacturer 602 can respond with a public encryption key 634 associated with access point 106.
- database 606 can be updated to include access point serial number 632, user ID 630 and the public encryption key 634 associated with access point 106.
- network device manufacturer 610 can assign a serial number 640 and a device credential such as PIN code 620 to network device 102. As described above, in other embodiments, other device credentials can be used.
- the PIN code 620 can be stored within network device 102.
- network device manufacturer 610 can maintain a list (not shown) associating PIN codes 620 with network device serial numbers 640. After the manufacture of network device 102, network device 102 can be shipped to a seller, reseller, online merchant, etc. [00122] When network device 102 is sold, database 606 can be updated with the users' user ID 638 and serial number 640 of network device. 102.
- the seller can send user ID 638 associated with user 608 and network device serial number 640 to central authority 604.
- Network device serial number 640 can be determined by examining the packaging or case of network device 102, or in other embodiments, by scanning a label such as a barcode label or a QR code sticker (not shown).
- central authority 604 can send serial number 640 to network device manufacturer 610.
- network device manufacturer 610 can respond with PIN code 620 for network device 102.
- Central authority 604 can store the PIN code 620, network device serial number 640, and user ID 638 associated with network device 102 in database 606.
- the central authority 604 can examine database 606 and can associate network device 102 with access point 106 by noting a common user ID (user IDs 630 and 638). For example if access point user ID 630 is found that matches network device user ID 638, then the central authority 604 can associate network device 102 with access point 106. In another embodiment, user IDs 630 and 638 need not match exactly. That is, a single user ID can be replaced by a list of "equivalent" user IDs that can be viewed by central authority 604 as being the same as one single user ID. In this manner, a group of users can easily be referred to and can be associated with access point 106 or network device 102 for seamless device configuration.
- central authority 604 determines that network device 102 should be associated with access point 106, at stage L, central authority 604 can send PFN code 620 to access point 106.
- central authority 604 can send PIN code 620 using encryption such as the public encryption key 634 stored in database 606. Since access point 106 includes private encryption key 636, PIN code 620 can be sent securely (encrypted) from central authority 604 to access point 106.
- network device 102 can be positioned within communication range of access point 106 and can communicate with access point 106.
- access point 106 and network device 102 can mutually authenticate using PIN code 620.
- access point 106 can authenticate network device 102 when network device 102 proves its possession of the PIN code 620 to access point 106 and the method ends.
- Proof of possession of the PFN code 620 can be based on, at least in part, Diffie-Hellman, Simultaneous Authentication of Equals (SAE), Wi-Fi Protected Setup (WPS) or any other technically feasible authentication protocol.
- SAE Simultaneous Authentication of Equals
- WPS Wi-Fi Protected Setup
- PIN code 620 is used to authenticate network device 102 to access point 106 in this example, any other technically feasible device credential (as described above) can be used.
- Figures 6A-6C describe using public/private key encryption for secure communications between central authority 604 and access point 106
- other forms of encryption can be used (symmetric key, or shared key for example).
- encryption can be ignored and communications between central authority 604 and access point 106 can be clear channel (open with no encryption) communications.
- Figure 7 is a flow diagram 700 illustrating yet another embodiment of example operations for seamless device configuration in a communication network.
- the method of Figure 7 is described with reference to the systems and components described in Figures 6A - 6C (for illustration purposes and not as a limitation).
- the example operations can be carried out by one or more components in system 700 such as terminal 104, a processor within network device 102 or access point 106.
- access point manufacturer 602 can assign serial number 632 and public 634 and private 636 encryption keys to access point 106.
- serial number 632 can uniquely identify access point 106.
- Public 634 and private 636 encryption keys can be used for asymmetric encryption for secure transmission of messages.
- the private encryption key 636 can be stored within access point 106.
- central authority 604 can receive a user ID 630 and a serial number 632 associated with access point 106.
- the user ID 630 and serial number 632 can be sent to central authority 604 when access point 106 is sold, either through an online sale or a sale occurring at a store at a terminal, such as a point of sale terminal 104.
- the user ID 630 can be assigned to identify a particular user 608 or group of users (not shown).
- central authority 604 can send serial number 632 to access point manufacturer 602. Communications between central authority 604 and access point manufacturer 602 can be conducted on any technically feasible network, such as the Internet. Proceeding to block 708, central authority 604 can receive the public encryption key 634 from access point manufacturer 602. In one embodiment, the public encryption key 634 can be received in response to access point manufacturer 602 receiving serial number 632 sent in block 706. The public encryption key 634 can enable secure communications with access point 106 to occur, if desired. Central authority 604 can store user ID 630, access point serial number 632 and access point public encryption key 634 in database 606.
- network device manufacturer 610 can assign serial number 640 and PIN code 620 to network device 102.
- PIN code 620 can also be stored within network device 102.
- central authority 604 can receive user ID 638 and serial number 640 associated with network device 102. The user ID 638 and serial number 640 can be sent to central authority 604 when network device 102 is sold, either through an online sale or a sale occurring at a terminal, such as point of sale terminal 104.
- central authority 604 can send network device serial number 640 to network device manufacturer 610. Proceeding to block 716, central authority 604 can receive PIN code 620 associated with network device 102. In one embodiment, PIN code 620 can be received from network device manufacturer 610 in response to receiving serial number 640 of network device 102. Central authority 604 can store user ID 638, network device serial number 640 and PIN code 620 in database 606.
- central authority 604 can associate network device 102 with access point 106, by processing database 606.
- the association between network device 102 and access point 106 can be determined by a common user ID associated with both devices.
- two or more user IDs can be grouped together and treated as a single user ID. That is, a single user ID can be replaced by a list of "equivalent" user IDs that can be viewed by central authority 604 as being the same as one single user ID. In this manner, a group of users can easily be referred to and can be associated with access point 106 or network device 102.
- central authority 604 can send PIN code 620 to access point 106 before network device 102 communicates with access point 106.
- PIN code 620 can be stored within access point 106.
- PIN code 620 can be sent securely to access point 106 using asymmetric public/private key based encryption using the public encryption key 634 stored in central authority 604 and private encryption key 636 stored in access point 106.
- network device 102 and access point 106 can mutually authenticate using PIN code 620 and the flow can end.
- Figures 1 - 7 and the operations described herein are examples meant to aid in understanding embodiments and should not be used to limit embodiments or limit scope of the claims. Embodiments may perform additional operations, fewer operations, operations in a different order, operations in parallel, and some operations differently.
- aspects of the present inventive subject matter may be embodied as a system, method, or computer program product.
- aspects of the present inventive subject matter may take the form of an entirely hardware embodiment, a software embodiment (including firmware, resident software, microcode, etc.) or an embodiment combining software and hardware aspects that may all generally be referred to herein as a "circuit,” “module” or “system.”
- aspects of the present inventive subject matter may take the form of a computer program product embodied in one or more computer readable medium(s) having computer readable program code embodied thereon.
- the computer readable medium may be a computer readable signal medium or a computer readable storage medium.
- a computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any suitable combination of the foregoing.
- a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.
- a computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof.
- a computer readable signal medium may be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.
- Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.
- Computer program code for carrying out operations for aspects of the present inventive subject matter may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, Smalltalk, C++ or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages.
- the program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server.
- the remote computer may be connected to the user's computer through any type of network, including a local area network (LAN) or a wide area network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider).
- LAN local area network
- WAN wide area network
- Internet Service Provider for example, AT&T, MCI, Sprint, EarthLink, MSN, GTE, etc.
- These computer program instructions may also be stored in a computer readable medium that can direct a computer, other programmable data processing apparatus, or other devices to function in a particular manner, such that the instructions stored in the computer readable medium produce an article of manufacture including instructions which implement the function/act specified in the flowchart and/or block diagram block or blocks.
- the computer program instructions may also be loaded onto a computer, other programmable data processing apparatus, or other devices to cause a series of operational steps to be performed on the computer, other programmable apparatus or other devices to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide processes for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.
- FIG 8 is a block diagram of an exemplary embodiment of an electronic device 800 including a wireless interface 808 for network communications.
- the electronic device 800 may be one of a laptop computer, a tablet computer, a mobile phone, a powerline communication device, a smart appliance (PDA), or other electronic systems.
- the electronic device 800 can include processor unit 802 (possibly including multiple processors, multiple cores, multiple nodes, and/or implementing multi-threading, etc.).
- the electronic device 800 can also include memory unit 806.
- Memory unit 806 may be system memory (e.g., one or more of cache, SRAM, DRAM, zero capacitor RAM, Twin Transistor RAM, eDRAM, EDO RAM, DDR RAM, EEPROM, NRAM, RRAM, SONOS, PRAM, etc.) or any one or more of the above already described possible realizations of machine-readable media.
- Electronic device 800 can also include bus 810 (e.g., PCI, ISA, PCI-Express, HyperTransport®, InfiniBand®, NuBus, AHB, AXI, etc.), and a network interfaces 804 can include wire-based interfaces (e.g., an Ethernet interface, a powerline communication interface, etc.).
- Wireless interfaces 808 can include at least one of a wireless network interface (e.g., a WLAN interface, a Bluetooth interface, a WiMAX interface, a ZigBee interface, a Wireless USB interface, etc.),
- electronic device 800 may support multiple network interfaces - each of which is configured to couple the electronic device 800 to a different communication network.
- the memory unit 806 embodies functionality to implement embodiments described above.
- the memory unit 806 may include one or more functionalities that facilitate seamless device configuration.
- memory unit 806 can implement one or more aspects of terminal 104, access point 106 or central authority 604 as described above.
- the memory unit 806 can embody functionality to implement embodiments described in Figures 1 - 7 above.
- memory unit 806 can include one or more functionalities that facilitate sending and receiving PIN codes, identifier codes, serial numbers, encryption keys, and the like.
- Memory unit 806 can also facilitate maintaining a database, and authenticating a device, such as a network device 102.
- Memory unit 806 can also be used to provide persistent storage of data such as database 606.
- Any one of these functionalities may be partially (or entirely) implemented in hardware and/or on the processor unit 802.
- some functionality may be implemented with an application specific integrated circuit, in logic implemented in the processor unit 802, in a co-processor on a peripheral device or card, etc.
- realizations may include fewer or additional components not illustrated in Figure 8 (e.g., video cards, audio cards, additional network interfaces, peripheral devices, etc.).
- Processor unit 802, memory unit 806, network interface 804 and wireless interface 808 are coupled to bus 810. Although illustrated as being coupled to the bus 810, memory unit 806 may be coupled to processor unit 802.
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Abstract
Description
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CN105191253B (en) | 2019-03-08 |
CN105191253A (en) | 2015-12-23 |
US10154025B2 (en) | 2018-12-11 |
JP2016513848A (en) | 2016-05-16 |
US20140282960A1 (en) | 2014-09-18 |
EP2974213B1 (en) | 2019-11-20 |
KR101999676B1 (en) | 2019-07-12 |
JP6505661B2 (en) | 2019-04-24 |
EP2974213A1 (en) | 2016-01-20 |
KR20150130517A (en) | 2015-11-23 |
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