Systems and methods for localization and passive entry/passive start (PEPS) systems for vehicles are provided. A communication gateway in a vehicle configured to establish a Bluetooth low energy (BLE) communication connection with a portable device. Sensors are configured to measure signal information about a communication signal sent from the portable device. A localization module is configured to receive the signal information from the sensors and determine a location of the portable device based on the signal information. A passive entry/passive start (PEPS) system is configured to receive the location of the portable device from the localization module and perform a vehicle function including at least one of unlocking a door of the vehicle, unlocking a trunk of the vehicle, and allowing the vehicle to be started based on the location of the portable device. Each of the plurality of sensors are synchronized.

An ignition control apparatus (10) for controlling ignition of a vehicle (270) equipped with a vehicle unit (1) comprising a display (3) and at least one port (5, 5′) adapted to receive a user data device (7, 7′), wherein the ignition control apparatus (10) is adapted to be connected to the vehicle unit (1) and to an ignition circuit (20) of the vehicle (270), wherein the ignition control apparatus (10) comprises means (11) for activating and deactivating the ignition circuit (20), depending on insertion of a user data device (7, 7′) into the port (5, 5′) and/or reception of an override signal (O). Further, a corresponding method, system and use thereof to control ignition of a vehicle (270) is disclosed.

A portable electronic device to be used as a keyless device of a vehicle includes a controlling circuit which includes a physiological feature detection module and a processing circuit. The physiological feature detection module is used for detecting a physiological feature of a person. The processing circuit is coupled to the physiological feature detection module and used for determining whether the person is an authorized user of the vehicle according to the detected physiological feature of the person, and for opening a car door of the vehicle or starting the vehicle when the person is identified by the processing circuit as the authorized user.

A method for a secure Passive Entry Passive Start (PEPS) authentication protocol measures the walking gait of a user approaching a related vehicle using a passive key device carried by the user. The method also includes measuring the user's gait from the perspective of the vehicle using a vehicle perception system to compare the two and validate the security of an unlock request, authenticate the unlocking session, and protect against relay attacks. The two-factor authentication protocol validates the physical presence and temporal state of the key fob or mobile phone relative to the vehicle using detected key gait measurement (key G-gait) and a vehicle perception-based gait (C-gait) measurement by comparing the independent gaits and generating control commands responsive to consistent and inconsistent measurements.

An information processing apparatus which controls locking and unlocking of a vehicle, the information processing apparatus comprises a controller configured to execute: in a case where there is an unlocking request from a first mobile terminal located outside the vehicle, receiving a first electronic key from the first mobile terminal to perform first authentication and unlocking the vehicle on condition that the first authentication is successful; and in a case where the first mobile terminal is located inside the vehicle, and there is an unlocking request from a second mobile terminal located outside the vehicle, receiving a second electronic key from the second mobile terminal to perform second authentication, receiving the first electronic key from the first mobile terminal located inside the vehicle to perform third authentication, and unlocking the vehicle on condition that both the second authentication and the third authentication are successful.

Some embodiments may include an apparatus comprising: a first universal key for unlocking, locking, and/or starting a motor vehicle; a server; and a mobile radio terminal. The first universal key is trained to a particular motor vehicle using a first secret. The server stores a further secret for unlocking, locking, and/or starting the motor vehicle. The server is configured to transmit the further secret to a universal key using two interfaces and the mobile radio terminal.

A key information management device includes an information processing device. The information processing device is configured to deliver key information to a mobile terminal as the mobile terminal transmits a predetermined transmission signal toward a vehicle. The key information is information for unlocking the vehicle, starting the vehicle, or unlocking and starting the vehicle. The information processing device is configured to register permission for a user of the vehicle to use a predetermined service using the vehicle. The permission is permission to cause the information processing device to deliver the key information to a mobile terminal of a third party concerned with the predetermined service, other than the user of the vehicle.

A vehicle authentication device includes an electronic control unit. The electronic control unit is configured to display predetermined verification information on a display device, receive, via an information processor possessed by a user, information on an operation performed by the user after the verification information is displayed, and determine that the information processor is present inside a vehicle cabin, when the information on the operation has a predetermined correspondence with the verification information.

A method of enrolling in an authentication system may include obtaining biometric data of a user, and generating a biometric template vector using the biometric data. The enrolling method may also include encrypting the biometric template vector, and embedding the encrypted biometric template vector into a computer-scannable medium. An additional method of verification via an authentication system may include obtaining an encrypted and encoded form of a biometric template vector associated with a user. The verification method may also include decoding the biometric template vector, and obtaining biometric data of the user of a same form used to create the biometric template vector. The verification method may additionally include determining a similarity score between the decoded biometric template vector and the biometric data, and performing an action based on the similarity score.

A portable electronic device to be used as a keyless device of a vehicle includes a controlling circuit which includes a physiological feature detection module and a processing circuit. The physiological feature detection module is used for detecting a physiological feature of a person. The processing circuit is coupled to the physiological feature detection module and used for determining whether the person is an authorized user of the vehicle according to the detected physiological feature of the person, and for opening a car door of the vehicle or starting the vehicle when the person is identified by the processing circuit as the authorized user.