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1. 发明授权

US11335143B2 Privacy control-adjustable commercial vehicle electronic logging device (ELD) and trip data-sharing system between a transportation company and a third-party corporate partner entity 有权
公开(公告)号：US11335143B2
公开(公告)日：2022-05-17
申请号：US16240787
申请日：2019-01-06
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G07C5/08 , G07C5/00 , G06F21/36 , G06F21/78 , G06F21/62
摘要： A novel privacy control-adjustable commercial vehicle ELD and trip data-sharing system and a related method of operation provide a dynamically-adjustable access grant or denial of privacy-sensitive and competitive intelligence-sensitive commercial fleet vehicle operations information to a third-party corporate partner entity of a transportation company, based on a trip data-share authorizer's response to an electronic request made by the third-party corporate partner entity. In one embodiment, vehicle information is categorized into a mandatory disclosure dataset and a privacy-adjustable dataset, wherein the mandatory disclosure dataset is disclosed to a vehicle monitoring personnel or an authorized third-party corporate partner entity at all times within a prespecified time limit, while the privacy-adjustable dataset is only selectively accessible when the trip data share authorizer explicitly grants access via an electronic user interface connected to the privacy control-adjustable commercial vehicle ELD and trip data-sharing system, upon entry of a correct or authenticated partner key.

2. 发明申请

US20190066407A1 Real-Time On-Board Diagnostics (OBD) Output Parameter-Based Commercial Fleet Maintenance Alert System 审中-公开
公开(公告)号：US20190066407A1
公开(公告)日：2019-02-28
申请号：US15690218
申请日：2017-08-29
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G07C5/08 , G07C5/00 , G06Q50/30
CPC分类号： G07C5/0808 , G06Q50/30 , G07C5/008
摘要： A novel real-time OBD output parameter-based commercial fleet maintenance alert system performs an automated and intelligent analysis of each vehicle's OBD and vehicle sensor output parameters in real time during the operation of the vehicle to determine and alert each fleet vehicle's maintenance needs to an electronic device utilized by a driver or a commercial fleet operator. The commercial fleet maintenance alert system is also capable of performing a machine-level pattern analysis to correlate a previously-alerted maintenance need of a particular vehicle with a subsequent breakdown of the particular vehicle in a commercial fleet to predict a future probability of similar breakdowns by other vehicles in the commercial fleet. In addition, the commercial fleet maintenance alert system is able to generate maintenance status reports and estimate maintenance costs for machine-identified vehicle maintenance needs, which is then compared against actual maintenance costs to improve the accuracy of future cost estimations.

3. 发明申请

US20160148141A1 Revenue and Productivity Optimization System With Environmental Sensor-Connected Smart Bell 有权
标题翻译：环境传感器连接智能钟的收益和生产力优化系统
公开(公告)号：US20160148141A1
公开(公告)日：2016-05-26
申请号：US14550991
申请日：2014-11-22
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G06Q10/06
CPC分类号： G06Q10/06315 , G06Q10/04 , G06Q10/063 , G06Q50/12
摘要： A revenue and productivity optimization system includes a service request device, also called a “smart bell,” an environmental sensor near or incased in the service request device, a service request reception device, and a cloud-computing server operating software components for the revenue and productivity optimization system. In one embodiment, one or more environmental variables, such as ambient temperature, humidity, noise levels, brightness, and ambient gas compositions, are measured by one or more environmental sensors, and relevant sensor data are transmitted to the cloud-computing server. The revenue and productivity optimization system correlates the sensor data to bell button press frequencies and intervals from the service request device, and analyzes and determines an optimal threshold or range for those environmental variables for higher revenue and/or productivity of an organization. The revenue and productivity optimization system then creates and transmits recommended actions to a supervising entity of the organization.
摘要翻译：收入和生产率优化系统包括服务请求设备，也称为“智能钟”，在服务请求设备附近或在服务请求设备附近的环境传感器，服务请求接收设备和云计算服务器操作用于收入的软件组件和生产率优化系统。在一个实施例中，通过一个或多个环境传感器测量一个或多个环境变量，例如环境温度，湿度，噪声水平，亮度和环境气体成分，并将相关的传感器数据传输到云计算服务器。收入和生产率优化系统将传感器数据与来自服务请求设备的按钮按钮频率和间隔相关联，并分析并确定这些环境变量的最佳阈值或范围，以提高组织的收入和/或生产率。收入和生产率优化系统然后创建并将建议的操作传递给组织的监督实体。

4. 发明申请

US20150012641A1 Chronically-Problematic Response Alert System for Service Request and Fulfillment Between a Service Requester and a Service Performer 有权
标题翻译：服务请求者和服务执行者之间的服务请求和履行的长期问题响应警报系统
公开(公告)号：US20150012641A1
公开(公告)日：2015-01-08
申请号：US13935366
申请日：2013-07-03
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： H04L12/26
CPC分类号： G06Q10/06 , G06Q10/06398 , G06Q50/12
摘要： An electronic alert system and a related method of operation for identifying, determining, and reporting chronically-problematic responses for service request and fulfillment between a service requester and a service performer are disclosed. In one embodiment, the electronic alert system identifies and determines a chronically-problematic response by analyzing two relational data sets. A first set of relational data set correlates time elapsed between a first service request bell press by a service requester from a service request device, and a confirmatory signal of successful service fulfillment from a service request reception device held by the service performer, or from the service request device. Furthermore, a second set of relational data set correlates a number of repeated service request bell presses by the service requester, a time interval between each bell press, and the confirmatory signal of successful service fulfillment from the service request device or the service request reception device.
摘要翻译：公开了一种用于识别，确定和报告服务请求者和服务执行者之间的服务请求和履行的长期有问题的响应的电子警报系统和相关操作方法。在一个实施例中，电子警报系统通过分析两个关系数据集来识别并确定长期有问题的响应。第一组关系数据集将来自服务请求装置的服务请求者的第一服务请求铃声和从服务执行者所持有的服务请求接收装置的成功服务执行的确认信号之间的时间相关联，服务请求设备此外，第二组关系数据集将服务请求者的多次重复服务请求铃声按照服务请求装置或服务请求接收装置的每个铃声按钮和成功的服务执行的确认信号之间的时间间隔相关联。

5. 发明授权

US11603120B2 Autonomous driving co-driver switch mode certification system and method of its operation in a commercial vehicle ELD 有权
公开(公告)号：US11603120B2
公开(公告)日：2023-03-14
申请号：US16907295
申请日：2020-06-21
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： B60W60/00 , B60W40/09 , G07C5/08 , B60W40/08
摘要： A novel autonomous driving co-driver switch mode certification system securely determines and certifies an autonomous machine driving mode, which is activated in a permitted route under conditions approved by a regulatory agency. The autonomous driving co-driver switch mode, when enabled, allows a commercial vehicle driver to utilize the vehicle's autonomous driving capability as long as the commercial vehicle driver and the vehicle are also meeting the regulatory agency-defined safety and regulatory requirements before and during the autonomous machine driving mode. The autonomous driving co-driver switch mode is deemed trustworthy and certified by the regulatory agency, if the vehicle's ECU, ELD, and sensory readouts confirm a tamperproof validation of the agency-approvable state of the commercial vehicle driver and the vehicle. The novel autonomous driving co-driver switch mode certification system improves the public trustworthiness of autonomous driving modes intended to increase fleet productivity, fuel efficiency, and safety in commercial vehicles.

6. 发明授权

US09443360B1 Unknown on-board diagnostics (OBD) protocol interpreter and conversion system 有权
标题翻译：未知的车载诊断（OBD）协议解释器和转换系统
公开(公告)号：US09443360B1
公开(公告)日：2016-09-13
申请号：US14634496
申请日：2015-02-27
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G07C5/00 , G01R31/00 , G07C5/08 , H04L29/08
CPC分类号： G07C5/008 , G01R31/007 , G07C5/0808 , G07C2205/02 , H04L67/12 , H04L67/125 , H04L67/2823 , H04W4/046
摘要： A novel on-board diagnostics (OBD) protocol interpreter and conversion system is capable of dynamically decoding commonly-known standard OBD formats as well as esoterically-customized and/or non-standard OBD formats that are initially unrecognized by a generic OBD data reader unit. The novel OBD protocol interpreter and conversion system includes an OBD protocol converter (OPC) unit that can be plugged to a vehicle OBD unit for seamlessly converting any types of standard and non-standard OBD formats to an OBD format compatible for real-time remote vehicle monitoring. For the esoterically-customized and/or non-standard OBD formats that cannot be decoded within the OPC alone, an unknown OBD protocol analysis module and a new OBD protocol interpreter development unit that are located remotely outside the vehicle can create installable new OBD interpreter codes, and update the OPC's OBD library and decoding units accordingly to enable seamless decoding of the esoterically-customized and/or non-standard OBD formats.
摘要翻译：一种新颖的车载诊断（OBD）协议解释器和转换系统能够动态解码常见的标准OBD格式以及最初由通用OBD数据读取器单元无法识别的深奥定制和/或非标准OBD格式。该新颖的OBD协议解释器和转换系统包括一个OBD协议转换器（OPC）单元，可以插入车载OBD单元，用于将任何类型的标准和非标准OBD格式无缝转换为与实时远程车辆兼容的OBD格式监控。对于仅在OPC中无法解码的深奥定制和/或非标准OBD格式，位于远程车辆外部的未知OBD协议分析模块和新的OBD协议解释器开发单元可创建可安装的新OBD解释器代码，并相应地更新OPC的OBD库和解码单元，以实现深奥定制和/或非标准OBD格式的无缝解码。

7. 发明申请

US20160148440A1 Real-Time Cargo Condition Management System and Method Based on Remote Real-Time Vehicle OBD Monitoring 有权
标题翻译：基于远程实时车辆OBD监控的实时货物状况管理系统及方法
公开(公告)号：US20160148440A1
公开(公告)日：2016-05-26
申请号：US14550990
申请日：2014-11-22
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G07C5/00 , G07C5/08
CPC分类号： G07C5/008 , G06Q10/0831 , G07C5/085
摘要： A novel real-time cargo condition management system and a related method of operation utilizes a unique data synchronization between a remote real-time vehicle on-board diagnostics (OBD) monitoring architecture and a radio frequency identification (RFID) tag attached to a cargo container to track real-time conditions of the cargo container. For example, the cargo container's currently-experienced acceleration and interior temperature can be accurately tracked by a remote monitoring station through a unique data synchronization among a vehicle OBD unit in a truck, an RFID reader installed in the cargo holding area of the truck that periodically scans the RFID tag attached to the cargo container, and an OBD data transceiver unit that wirelessly transmits vehicle OBD data correlated to the RFID tag attached to the cargo container. Similarly, the cargo container's location can be accurately tracked by synchronizing the RFID tag information to the OBD data transceiver unit.
摘要翻译：一种新颖的实时货物状况管理系统和相关的操作方法利用远程实时车载车载诊断（OBD）监控架构和连接到货物集装箱的射频识别（RFID）标签之间的独特数据同步跟踪货物集装箱的实时状况。例如，货物集装箱目前经历的加速度和内部温度可以由远程监控站通过车辆中的车辆OBD单元之间的独特数据同步精确地跟踪，安装在卡车的货物保持区域中的RFID读取器周期性地扫描附着在货物集装箱上的RFID标签，以及OBD数据收发器单元，其无线地传送与附接到货物集装箱的RFID标签相关的车辆OBD数据。类似地，可以通过将RFID标签信息同步到OBD数据收发器单元来准确跟踪货物集装箱的位置。

8. 发明授权

US08966654B1 Privacy control-adjustable vehicle monitoring system with a wild card mode 有权
标题翻译：具有通配卡模式的隐私控制可调车辆监控系统
公开(公告)号：US08966654B1
公开(公告)日：2015-02-24
申请号：US13968109
申请日：2013-08-15
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G06F7/04 , G06F21/60
CPC分类号： G06F21/6245
摘要： A novel privacy control-adjustable vehicle monitoring system and a related method of operation provide a dynamically-adjustable access grant or denial of privacy-sensitive vehicle information to a vehicle monitoring personnel based on a driver's response to an electronic request made by the vehicle monitoring personnel. In one embodiment, vehicle information is categorized into a mandatory disclosure dataset and a privacy-adjustable dataset, wherein the mandatory disclosure dataset is disclosed to the vehicle monitoring personnel at all times, while the privacy-adjustable dataset is accessible if the driver grants access via a driver's user interface on an onboard vehicle user interface, or on a mobile electronic device. Furthermore, a special wild card mode visible to the driver enables the vehicle monitoring personnel to access an entire set of vehicle information for a limited period per access and for a limited number of accesses per period, based on a pre-arranged consent with the driver.
摘要翻译：一种新颖的隐私控制可调整的车辆监控系统和相关的操作方法基于驾驶员对车辆监控人员的电子请求的响应，向车辆监控人员提供动态可调的访问授权或拒绝对隐私敏感的车辆信息。在一个实施例中，车辆信息被分类为强制性公开数据集和隐私可调整数据集，其中强制性公开数据集在任何时候都被公开给车辆监控人员，而如果驾驶员通过车载用户界面上的驾驶员用户界面，或移动电子设备上的驾驶员用户界面。此外，驾驶员可以看到的特殊通配卡模式使得车辆监视人员可以基于与驾驶员的预先安排的同意，每次访问的有限期间和每个时段的有限数量的访问访问整套车辆信息。

9. 发明申请

US20210394800A1 Autonomous Driving Co-Driver Switch Mode Certification System and Method of Its Operation in a Commercial Vehicle ELD 有权
公开(公告)号：US20210394800A1
公开(公告)日：2021-12-23
申请号：US16907295
申请日：2020-06-21
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： B60W60/00 , G07C5/08 , B60W40/09
摘要： A novel autonomous driving co-driver switch mode certification system securely determines and certifies an autonomous machine driving mode, which is activated in a permitted route under conditions approved by a regulatory agency. The autonomous driving co-driver switch mode, when enabled, allows a commercial vehicle driver to utilize the vehicle's autonomous driving capability as long as the commercial vehicle driver and the vehicle are also meeting the regulatory agency-defined safety and regulatory requirements before and during the autonomous machine driving mode. The autonomous driving co-driver switch mode is deemed trustworthy and certified by the regulatory agency, if the vehicle's ECU, ELD, and sensory readouts confirm a tamperproof validation of the agency-approvable state of the commercial vehicle driver and the vehicle. The novel autonomous driving co-driver switch mode certification system improves the public trustworthiness of autonomous driving modes intended to increase fleet productivity, fuel efficiency, and safety in commercial vehicles.

10. 发明申请

US20210110480A1 INTELLIGENT MACHINE SENSING AND MACHINE LEARNING-BASED COMMERCIAL VEHICLE INSURANCE RISK SCORING SYSTEM 有权
公开(公告)号：US20210110480A1
公开(公告)日：2021-04-15
申请号：US16600537
申请日：2019-10-13
申请人： TrueLite Trace, Inc.
发明人： Sung Bok Kwak
IPC分类号： G06Q40/08 , G06N20/00 , G07C5/00
摘要： An intelligent machine sensing and machine learning-based commercial vehicle insurance risk scoring system utilizes in-vehicle sensors, OBD outputs, and electronic driver logs from real-time monitored commercial vehicles as well as accident-causality historical statistics to produce an accurate insurance risk score per monitored vehicle and its driver. The insurance risk score generated by the intelligent machine sensing and machine learning-based commercial vehicle insurance risk scoring system incorporates multiple insurance risk factors with a variable weighting ratio per factor, which is multiplied by a numerical value per factor, wherein each weighting ratio may be autonomously machine-determined based on the significance of each insurance risk factor to a likelihood of an actual accident or another safety event. Furthermore, the insurance risk score per monitored vehicle or commercial driver is objectively comparable to peer vehicles or drivers in a commercial fleet organization, and can undergo min-max feature scaling in deriving each finalized score.

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