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公开(公告)号:US20170345240A1
公开(公告)日:2017-11-30
申请号:US15606159
申请日:2017-05-26
Inventor: Nikolas Bergerhoff , Tejas Desai , Tammer Zein-El-Abedein
CPC classification number: B60R25/24 , B60R2325/205 , G07C9/00571 , G07C9/00857 , G07C2009/00404 , G07C2009/00412 , G07C2009/00492 , G07C2009/00507 , G07C2009/00865 , H04B5/0068 , H04B5/0081 , H04L67/10 , H04L67/125 , H04M1/7253 , H04M1/72533 , H04M2250/04 , H04W4/40 , H04W4/50 , H04W76/10 , H04W88/06
Abstract: A smartphone having: a configurable radio frequency transmitter; a configurable low frequency transponder with at least one low frequency coil; and a smartphone application program that is controlled by a cloud service and that is configured to configure the radio frequency transmitter and the low frequency transponder with protocol parameters and initial data values such that the low frequency transponder mimics a virgin key device that can be programmed to a particular vehicle model.
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公开(公告)号:US11292431B2
公开(公告)日:2022-04-05
申请号:US16960842
申请日:2019-01-07
Inventor: Yong Kim , Nikolas Bergerhoff , Ritesh Ahuja
Abstract: Interpretive meta-instructions are used, at a connected vehicle access system (CVAS) device, to implement various RKE protocols by: receiving an RKE-protocol-specific meta-instruction that has been generated by a back-end server; generating an RKE telegram based on the RKE-protocol-specific meta-instruction; and transmitting the RKE telegram to a vehicle. The meta-instruction may include: a device configuration that specifies a set of RF parameters of a CVAS-device transceiver; a template telegram that contains a first set of data fields with data values from the back-end server and that contains a second set of data fields for which data values will be generated and inserted at the CVAS device; and localization-processing commands containing instructions for modifying the second set of data fields of the template telegram.
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公开(公告)号:US09947153B2
公开(公告)日:2018-04-17
申请号:US15452314
申请日:2017-03-07
Inventor: Nikolas Bergerhoff , Ritesh Ahuja
CPC classification number: G07C9/00015 , B60R25/04 , B60R25/24 , B60R2325/101 , B60R2325/108 , B60R2325/205 , G07C9/00309 , G07C9/00571 , G07C2009/00349 , G07C2009/00412 , H04L9/0869 , H04L9/0894 , H04L63/0428 , H04M1/7253
Abstract: A Bluetooth enabled Smartphone may be used for both access control and start authorization in a secure and safe way, and embodiments are backward-compatible with conventional vehicle access and start systems. A smart phone acts as an intermediary authorization device to a code generator which effectively resembles a car key that is installed in a vehicle. A Bluetooth transceiver and the code generator—and, optionally, for the retrofit solution, an RF/LF transceiver—are added to the vehicle. The Bluetooth transceiver communicates with the smart phone. The code generator communicates with electronic control units in the vehicle that control access, immobilization, and engine start. The communication may happen via a wired connection or, in the case of the retrofit solution, via an RF/LF transceiver that mimics an additional car key programmed to the vehicle.
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公开(公告)号:US20170263062A1
公开(公告)日:2017-09-14
申请号:US15452314
申请日:2017-03-07
Inventor: Nikolas Bergerhoff , Ritesh Ahuja
CPC classification number: G07C9/00015 , B60R25/04 , B60R25/24 , B60R2325/101 , B60R2325/108 , B60R2325/205 , G07C9/00309 , G07C9/00571 , G07C2009/00349 , G07C2009/00412 , H04L9/0869 , H04L9/0894 , H04L63/0428 , H04M1/7253
Abstract: A Bluetooth enabled Smartphone may be used for both access control and start authorization in a secure and safe way, and embodiments are backward-compatible with conventional vehicle access and start systems. A smart phone acts as an intermediary authorization device to a code generator which effectively resembles a car key that is installed in a vehicle. A Bluetooth transceiver and the code generator—and, optionally, for the retrofit solution, an RF/LF transceiver—are added to the vehicle. The Bluetooth transceiver communicates with the smart phone. The code generator communicates with electronic control units in the vehicle that control access, immobilization, and engine start. The communication may happen via a wired connection or, in the case of the retrofit solution, via an RF/LF transceiver that mimics an additional car key programmed to the vehicle.
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公开(公告)号:US20160098870A1
公开(公告)日:2016-04-07
申请号:US14869585
申请日:2015-09-29
Inventor: Nikolas Bergerhoff , Ritesh Ahuja , Adrian Radu , Tejas Desai , Herbert Froitzheim , Yao Zhai , Robert Obermaier
CPC classification number: G07C9/00309 , A63F2300/532 , B60R25/2018 , G06F2221/2149 , G07C9/00007 , G07C9/00182 , G07C9/00571 , G07C2009/00412 , G07C2009/00769 , G07C2009/00888 , H04W4/44 , H04W4/48 , H04W76/10
Abstract: A method to learn and then pair with a pre-installed access control system of a vehicle is discussed. Communication is exchanged between the access control system and a backend cloud-based system. Required data of the access control system including its particular authentication code is extracted by a learning device. A vehicle matching data is sent to the backend cloud-based system and the vehicle is registered with the backend cloud-based system. The learning device is registered to the access control system in accordance with learning procedures implemented in the vehicle as remote entry key. The learning device is coupled to a Radio Frequency signal transmitter that has Application-Specific Integrated Circuits to generate stable RF signals at multiple frequency wavelengths. Registration of learning device includes, receiving a first access control telegram message, transmitting the first access control telegram message to the access control system, pairing the learning device with the access control system.
Abstract translation: 讨论了一种学习,然后与预先安装的车辆访问控制系统配对的方法。 在访问控制系统和基于后端云的系统之间交换通信。 包括其特定认证码的访问控制系统的必需数据由学习装置提取。 车辆匹配数据被发送到基于后端的基于云的系统,并且车辆被登记在后端的基于云的系统中。 学习装置根据作为远程入口密钥在车辆中实现的学习过程登记到访问控制系统。 该学习装置耦合到具有专用集成电路以在多个频率波长下产生稳定的RF信号的射频信号发射机。 学习装置的注册包括:接收第一访问控制电报消息,向访问控制系统发送第一访问控制电报消息,将学习设备与访问控制系统配对。
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Patent Agency Ranking
公开(公告)号:US10929819B2
公开(公告)日:2021-02-23
申请号:US15761982
申请日:2016-09-02
Inventor: Seval Oz , Yao Zhai , Adrian Ramos Aguayo , Sudeep Kaushik , Nikolas Bergerhoff
Abstract: A cloud based system for vehicle maintenance to a target vehicle includes a cloud based on-site vehicle maintenance service. A GPS-based proximity module in a first server associated with the on-site vehicle maintenance service receives both current GPS coordinates of a service vehicle associated with a first maintenance and service provider and current GPS coordinates of the target vehicle of a customer. The current GPS coordinates are used for at least one maintenance and service delivery session with the target vehicle of the customer. The vehicle maintenance and service operation includes 1) directing the service vehicle to the target vehicle of the customer, 2) opening and/or unlocking the target vehicle of the customer, 3) ensuring the one or more vehicle maintenance and service jobs have been performed, and 4) ensuring the target vehicle of the customer is closed and locked.
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公开(公告)号:US20200339067A1
公开(公告)日:2020-10-29
申请号:US16960842
申请日:2019-01-07
Inventor: Yong Kim , Nikolas Bergerhoff , Ritesh Ahuja
Abstract: Interpretive meta-instructions are used, at a connected vehicle access system (CVAS) device, to implement various RKE protocols by: receiving an RKE-protocol-specific meta-instruction that has been generated by a back-end server; generating an RKE telegram based on the RKE-protocol-specific meta-instruction; and transmitting the RKE telegram to a vehicle. The meta-instruction may include: a device configuration that specifies a set of RF parameters of a CVAS-device transceiver; a template telegram that contains a first set of data fields with data values from the back-end server and that contains a second set of data fields for which data values will be generated and inserted at the CVAS device; and localization-processing commands containing instructions for modifying the second set of data fields of the template telegram.
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公开(公告)号:US10361755B2
公开(公告)日:2019-07-23
申请号:US15606159
申请日:2017-05-26
Inventor: Nikolas Bergerhoff , Tejas Desai , Tammer Zein-El-Abedein
IPC: H04W76/10 , B60R25/24 , G07C9/00 , H04B5/00 , H04L29/08 , H04W88/06 , H04W4/50 , H04M1/725 , H04W4/40
Abstract: A smartphone having: a configurable radio frequency transmitter; a configurable low frequency transponder with at least one low frequency coil; and a smartphone application program that is controlled by a cloud service and that is configured to configure the radio frequency transmitter and the low frequency transponder with protocol parameters and initial data values such that the low frequency transponder mimics a virgin key device that can be programmed to a particular vehicle model.
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公开(公告)号:US09852563B2
公开(公告)日:2017-12-26
申请号:US15289522
申请日:2016-10-10
Inventor: Nikolas Bergerhoff , Ritesh Ahuja , Adrian Radu , Tejas Desai , Herbert Froitzheim , Yao Zhai , Robert Obermaier
CPC classification number: G07C9/00309 , A63F2300/532 , B60R25/2018 , G06F2221/2149 , G07C9/00007 , G07C9/00182 , G07C9/00571 , G07C2009/00412 , G07C2009/00769 , G07C2009/00888 , H04W4/44 , H04W4/48 , H04W76/10
Abstract: A method to learn and then pair with a pre-installed access control system of a vehicle is discussed. Communication is exchanged between the access control system and a backend cloud-based system. Required data of the access control system including its particular authentication code is extracted by a learning device. A vehicle matching data is sent to the backend cloud-based system and the vehicle is registered with the backend cloud-based system. The learning device is registered to the access control system in accordance with learning procedures implemented in the vehicle as remote entry key. The learning device is coupled to a Radio Frequency signal transmitter that has Application-Specific Integrated Circuits to generate stable RF signals at multiple frequency wavelengths. Registration of learning device includes, receiving a first access control telegram message, transmitting the first access control telegram message to the access control system, pairing the learning device with the access control system.
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公开(公告)号:US20170053470A1
公开(公告)日:2017-02-23
申请号:US15289522
申请日:2016-10-10
Inventor: Nikolas Bergerhoff , Ritesh Ahuja , Adrian Radu , Tejas Desai , Herbert Froitzheim , Yao Zhai , Robert Obermaier
IPC: G07C9/00
CPC classification number: G07C9/00309 , A63F2300/532 , B60R25/2018 , G06F2221/2149 , G07C9/00007 , G07C9/00182 , G07C9/00571 , G07C2009/00412 , G07C2009/00769 , G07C2009/00888 , H04W4/44 , H04W4/48 , H04W76/10
Abstract: A method to learn and then pair with a pre-installed access control system of a vehicle is discussed. Communication is exchanged between the access control system and a backend cloud-based system. Required data of the access control system including its particular authentication code is extracted by a learning device. A vehicle matching data is sent to the backend cloud-based system and the vehicle is registered with the backend cloud-based system. The learning device is registered to the access control system in accordance with learning procedures implemented in the vehicle as remote entry key. The learning device is coupled to a Radio Frequency signal transmitter that has Application-Specific Integrated Circuits to generate stable RF signals at multiple frequency wavelengths. Registration of learning device includes, receiving a first access control telegram message, transmitting the first access control telegram message to the access control system, pairing the learning device with the access control system.
Abstract translation: 讨论了一种学习,然后与预先安装的车辆访问控制系统配对的方法。 在访问控制系统和基于后端云的系统之间进行通信。 包括其特定认证码的访问控制系统的必需数据由学习装置提取。 车辆匹配数据被发送到基于后端的基于云的系统,并且车辆被登记在后端的基于云的系统中。 学习装置根据作为远程入口密钥在车辆中实现的学习过程登记到访问控制系统。 该学习装置耦合到具有专用集成电路以在多个频率波长下产生稳定的RF信号的射频信号发射机。 学习装置的注册包括:接收第一访问控制电报消息,向访问控制系统发送第一访问控制电报消息,将学习设备与访问控制系统配对。
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