A server includes a processor, memory, and a communications interface. During a registration process the communications interface receives a phone number associated with a client mobile device, from a client computer system. In response to receiving the phone number, the processor generates a password and associates it with the client computer system. The password is transmitted to the client mobile device using the received phone number, and a password interface is transmitted to the client computer system. The processor waits up to a predetermined amount of time for the password transmitted to the client mobile device to be returned to the server device via the password interface transmitted to the client computer system. In response to the predetermined amount of time expiring without receiving the password, a message allowing the registration process to be completed using the client mobile device is transmitted to the client mobile device.

A server includes a processor, memory, and a communications interface. During a registration process the communications interface receives a phone number associated with a client mobile device, from a client computer system. In response to receiving the phone number, the processor generates a password and associates it with the client computer system. The password is transmitted to the client mobile device using the received phone number, and a password interface is transmitted to the client computer system. The processor waits up to a predetermined amount of time for the password transmitted to the client mobile device to be returned to the server device via the password interface transmitted to the client computer system. In response to the predetermined amount of time expiring without receiving the password, a message allowing the registration process to be completed using the client mobile device is transmitted to the client mobile device.

A biometric token is generated for a user and provided to a user-operated device. A pre-staged transaction is defined by a user and the user supplies the token for association with the pre-staged transaction. Subsequently, a user visits a transaction terminal and a new candidate token is generated from biometric attributes of the user. The candidate token is matched to the token associated with pre-staged transaction to authenticate the user and the pre-staged transaction is processed at the transaction terminal as a completed transaction.

A biometric token is generated for a user and provided to a user-operated device. A pre-staged transaction is defined by a user and the user supplies the token for association with the pre-staged transaction. Subsequently, a user visits a transaction terminal and a new candidate token is generated from biometric attributes of the user. The candidate token is matched to the token associated with pre-staged transaction to authenticate the user and the pre-staged transaction is processed at the transaction terminal as a completed transaction.

Phishing attacks attempt to solicit valuable information such as personal information, account credentials, and the like from human users by disguising a malicious request for information as a legitimate inquiry, typically in the form of an electronic mail or similar communication. By tracking a combination of outbound web traffic from an endpoint and inbound electronic mail traffic to the endpoint, improved detection of phishing attacks or similar efforts to wrongly obtain sensitive information can be achieved.

Phishing attacks attempt to solicit valuable information such as personal information, account credentials, and the like from human users by disguising a malicious request for information as a legitimate inquiry, typically in the form of an electronic mail or similar communication. By tracking a combination of outbound web traffic from an endpoint and inbound electronic mail traffic to the endpoint, improved detection of phishing attacks or similar efforts to wrongly obtain sensitive information can be achieved.

A system and method for providing multifactor authentication. A disclosed method includes receiving a request at a server to launch a new session for an application on a client device, generating a plurality of codes, each of the plurality of codes associated with a respective identifier, and forwarding the plurality of codes via a short messaging service (SMS) message to a user associated with the client device. The method further includes sending the respective identifier associated with a given code of the plurality of codes to the application and receiving a submitted code entered into the application from the client device. Once received, the method compares the submitted code with the given code associated with the respective identifier and authenticates the user in response to the submitted code matching the given code.

A system and method for providing multifactor authentication. A disclosed method includes receiving a request at a server to launch a new session for an application on a client device, generating a plurality of codes, each of the plurality of codes associated with a respective identifier, and forwarding the plurality of codes via a short messaging service (SMS) message to a user associated with the client device. The method further includes sending the respective identifier associated with a given code of the plurality of codes to the application and receiving a submitted code entered into the application from the client device. Once received, the method compares the submitted code with the given code associated with the respective identifier and authenticates the user in response to the submitted code matching the given code.

A network security system provides portals which enable automatic creation of a dynamic one-time port forwarding rule for an authorized user's current IP address following two factor authentication of the authorized user. Such a dynamic one-time port forwarding rule is utilized to set up a connection, at which point the dynamic one-time port forwarding rule is removed, preventing any attacker from subsequently taking advantage of it. Such a methodology is advantageous as compared to conventional port forwarding in that it is much more secure. Such a methodology is advantageous as compared to traditional port forwarding with access control both in that a user does not always have to utilize the same device with a static IP address, and in that the port forwarding rule representing or exposing a potential vulnerability is deleted after a connection is established.

A technology which is highly safe and furthermore highly convenient in personal authentications via a mobile terminal is provided. A terminal device 200 of the present invention includes: a position determining section 271 that determines a position of the terminal device 200 at predetermined time intervals, and accumulates the position as position information; a movement history generating section 272 that generates a movement history by using the position information accumulated in a predetermined period, and stores the movement history as movement history information; a registration processing section 276 that transmits, for registration, the movement history information to a personal authentication apparatus; and an authentication requesting section 279 that makes an authentication request to the personal authentication apparatus 310 by using the movement history information stored after the transmission by the registration processing section 276 to the personal authentication apparatus 310.