公开(公告)号：US20140278026A1

公开(公告)日：2014-09-18

申请号：US13815807

申请日：2013-03-16

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/08

CPC classification number: G08G1/08 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0133 ,  G08G1/0145 ,  G08G1/087

Abstract: An apparatus and system for monitoring and managing traffic flow. The system includes a plurality of remote sensor devices arranged in a plurality of vehicles, a plurality of remote communication devices arranged along one or more roadways and in communication with the plurality of remote sensor devices, a central server, a network interface in communication with the central server and the plurality of remote communication devices over a network, and a shared database in communication with the central server. The central server is configured to receive traffic data from the plurality of remote sensor devices over the network, update traffic data in the shared database, periodically calculate an optimal traffic flow for one or more of vehicles traveling along the one or more roadways based on the updated traffic data, and transmit timing adjustments over the network to one or more traffic light intersections based on the optimal traffic flow calculations. The network interface is configured to send and receive traffic data, wherein the traffic data includes vehicle location information.

Abstract translation: 一种用于监控和管理交通流量的设备和系统。 该系统包括布置在多个车辆中的多个远程传感器设备，沿着一个或多个道路布置并与多个远程传感器设备通信的多个远程通信设备，中央服务器，与 中央服务器和多个远程通信设备，以及与中央服务器通信的共享数据库。 中央服务器被配置为通过网络从多个远程传感器设备接收交通数据，更新共享数据库中的交通数据，周期性地计算一条或多条沿着一条或多条道路行驶的车辆的最佳交通流量，基于 更新的交通数据，以及基于最佳交通流量计算，将网络上的定时调整发送到一个或多个交通灯交叉点。 网络接口被配置为发送和接收业务数据，其中业务数据包括车辆位置信息。

公开(公告)号：US10037689B2

公开(公告)日：2018-07-31

申请号：US14666588

申请日：2015-03-24

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/09 ,  G08G1/01 ,  G01C21/34 ,  G08G1/08 ,  G08G1/0965 ,  G08G1/0967 ,  G08G1/0968 ,  G08G1/00

CPC classification number: G08G1/0141 ,  G01C21/3415 ,  G01C21/3691 ,  G01C21/3697 ,  G05D1/0285 ,  G05D1/0287 ,  G06K7/10475 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0133 ,  G08G1/0145 ,  G08G1/08 ,  G08G1/0965 ,  G08G1/096725 ,  G08G1/096741 ,  G08G1/096775 ,  G08G1/0968 ,  G08G1/096816 ,  G08G1/096844 ,  G08G1/205 ,  H04Q9/00 ,  H04Q2209/47

Abstract: The system apparatus manages and adjusts monitored traffic density and/or speed in relationship to spatial locational flow rates, through a plurality of mobile and/or stationary encrypted communication device sensors, system transmits calculated digital navigational directives throughout a network of domains within any infrastructure in direct secure communication with humans, drivers and/or owners and/or vehicle transports mechanism themselves, viewable and/or audibly seen on iNavX2 virtual interface, providing on demand dimensional spatial mapping locational services, driver and/or vehicles system generated requests for certified advertisements and tracking transmitted navigational maneuvers.

公开(公告)号：US09070290B2

公开(公告)日：2015-06-30

申请号：US13815807

申请日：2013-03-16

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/08 ,  G08G1/01 ,  G08G1/087

CPC classification number: G08G1/08 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0133 ,  G08G1/0145 ,  G08G1/087

Abstract: An apparatus and system for monitoring and managing traffic flow. The system includes a plurality of remote sensor devices arranged in a plurality of vehicles, a plurality of remote communication devices arranged along one or more roadways and in communication with the plurality of remote sensor devices, a central server, a network interface in communication with the central server and the plurality of remote communication devices over a network, and a shared database in communication with the central server. The central server is configured to receive traffic data from the plurality of remote sensor devices over the network, update traffic data in the shared database, periodically calculate an optimal traffic flow for one or more of vehicles traveling along the one or more roadways based on the updated traffic data, and transmit timing adjustments over the network to one or more traffic light intersections based on the optimal traffic flow calculations. The network interface is configured to send and receive traffic data, wherein the traffic data includes vehicle location information.

Abstract translation: 一种用于监控和管理交通流量的设备和系统。 该系统包括布置在多个车辆中的多个远程传感器设备，沿着一个或多个道路布置并与多个远程传感器设备通信的多个远程通信设备，中央服务器，与 中央服务器和多个远程通信设备，以及与中央服务器通信的共享数据库。 中央服务器被配置为通过网络从多个远程传感器设备接收交通数据，更新共享数据库中的交通数据，周期性地计算一条或多条沿着一条或多条道路行驶的车辆的最佳交通流量，基于 更新的交通数据，以及基于最佳交通流量计算，将网络上的定时调整发送到一个或多个交通灯交叉点。 网络接口被配置为发送和接收业务数据，其中业务数据包括车辆位置信息。

公开(公告)号：US10991242B2

公开(公告)日：2021-04-27

申请号：US15489974

申请日：2017-04-18

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/005 ,  G08G1/01 ,  G01C21/34 ,  G08G1/08 ,  G08G1/0965 ,  G08G1/0967 ,  G08G1/0968 ,  G08G1/00 ,  G01C21/36 ,  G05D1/02 ,  G06K7/10 ,  H04Q9/00

Abstract: A secure vehicle navigational system managing recorded vehicular and human movements transmitting encrypted communications between secure interconnected devices configured along road-ways within network-topology of two or more domains interconnected within a configured infrastructure communicating with a plurality of encrypted telemetry communication devices con figured within or attached to vehicular apparatus and humans, recording received and transmitted data-content between interconnected ecomm-devices and navigational command centers, continuous calculating forecasted positional phase-change positional points determined from a plurality of algorithms and techniques, map tracking a plurality of mechanisms, performing a plurality of calculations comprised of spatial density in proportion to velocity changes, analyzing a plurality of detected guidance drive-ability and interoperability factors, forecasting programmed space time position compared with future time in space positions from a configured subnaysys network-topology, navigational directives and communications are viewable and audibly heard on a augmented VIR Inter-Face, and other embodiments are claimed and described.

公开(公告)号：US09224293B2

公开(公告)日：2015-12-29

申请号：US14158797

申请日：2014-01-18

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/08 ,  G08G1/01

CPC classification number: G08G1/08 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0145

Abstract: An apparatus and system for monitoring and managing traffic flow. The system includes a plurality of remote sensor devices arranged in a plurality of vehicles, a plurality of remote communication hub devices operatively arranged along one or more roadways and in communication with the plurality of remote sensor devices, a central server, a network interface in communication with the central server and the plurality of remote communication hub devices over a network, and a shared database in communication with the central server. The central server is configured to receive traffic data from the plurality of remote sensor devices over the network, update traffic data in the shared database, periodically calculate an optimal traffic flow for one or more of vehicles traveling along the one or more roadways based on the updated traffic data, and transmit timing adjustments over the network to one or more traffic light intersections based on the optimal traffic flow calculations. The network interface is configured to send and receive traffic data. The traffic data includes vehicle location information and network traffic congestion information.

Abstract translation: 一种用于监控和管理交通流量的设备和系统。 该系统包括布置在多个车辆中的多个远程传感器装置，沿着一个或多个道路可操作地布置并与多个远程传感器装置通信的多个远程通信集线器装置，中央服务器，通信网络接口 与中央服务器和多个远程通信集线器设备通过网络，以及与中央服务器通信的共享数据库。 中央服务器被配置为通过网络从多个远程传感器设备接收交通数据，更新共享数据库中的交通数据，周期性地计算一条或多条沿着一条或多条道路行驶的车辆的最佳交通流量，基于 更新的交通数据，以及基于最佳交通流量计算，将网络上的定时调整发送到一个或多个交通灯交叉点。 网络接口配置为发送和接收流量数据。 交通数据包括车辆位置信息和网络交通拥堵信息。

公开(公告)号：US20140216562A1

公开(公告)日：2014-08-07

申请号：US13757787

申请日：2013-02-02

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: F04B39/12

CPC classification number: F04B33/005 ,  Y10T137/0402 ,  Y10T137/3724

Abstract: A portable air pump apparatus and method that includes an elongated elongated cylinder portion having a first air channel for transporting compressed air, and an air discharge portion having a connection head, a finger or thumb grip portion, a rotatable thumb-lock lever, and a second air channel extending vertically therethrough the air discharge portion and engagable with an inflation valve of an inflatable object. The second air channel is in communication with the first air channel of the elongated cylinder portion. The rotatable thumb-lock may be rotated within a predetermined range of movement defined substantially by a non-engaged position and an engaged position. The portable air pump is configured such that a user may grasp the air discharge portion with a single hand using the finger or thumb grip portion to place the connection head over an inflation valve of the inflatable object and to use one or more fingers to move the rotatable thumb-lock lever from the non-engaged position to the engaged position, thereby enabling air to flow into the inflatable object from the air pump apparatus without significant air loss.

Abstract translation: 一种便携式空气泵装置和方法，其包括具有用于输送压缩空气的第一空气通道的细长细长圆筒部分和具有连接头，手指或拇指握持部分，可旋转拇指锁定杆和 第二空气通道垂直地延伸穿过空气排放部分并且可与可膨胀物体的充气阀接合。 第二空气通道与细长气缸部分的第一空气通道连通。 可旋转的拇指锁可以在基本上由非接合位置和接合位置限定的预定运动范围内旋转。 便携式空气泵被构造成使得用户可以使用手指或拇指把手部分用单手握住排气部分，以将连接头放置在可充气物体的充气阀上，并且使用一个或多个手指来移动 可旋转的拇指锁定杆从非接合位置到接合位置，从而使得空气从空气泵装置流入可充气物体中，而没有显着的空气损失。

公开(公告)号：US10480730B1

公开(公告)日：2019-11-19

申请号：US15133017

申请日：2016-04-19

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: H01L31/05 ,  F21S9/03 ,  H01L31/0216 ,  H02S40/38 ,  F21V1/04 ,  F21V7/00 ,  F21V31/00 ,  F21V23/00 ,  F21V15/01 ,  H02S40/42 ,  H01L31/052 ,  F21Y115/10

Abstract: A sustainable solar system device monitors watt production, consumption and deterioration of the components within a plurality of configured by designed solar panels, a solar light fixture and a solar lamp shade models configured within a plurality of solar cells and/or the plurality of solar-cell modules. The sustainable light system generates watt power manipulating by design the light spectrum rays to subsequent chambered layers, control gates power distribution to internal and external devices, managed by a smart solar system controller complex determining end of life cycle factors, efficiency levels and generate system analytics.

公开(公告)号：US20170337813A1

公开(公告)日：2017-11-23

申请号：US15489974

申请日：2017-04-18

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/01 ,  G05D1/02 ,  G08G1/0968 ,  G01C21/36 ,  G06K7/10 ,  H04Q9/00

CPC classification number: G08G1/0141 ,  G01C21/3415 ,  G01C21/3691 ,  G01C21/3697 ,  G05D1/0285 ,  G05D1/0287 ,  G06K7/10475 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0133 ,  G08G1/0145 ,  G08G1/08 ,  G08G1/0965 ,  G08G1/096725 ,  G08G1/096741 ,  G08G1/096775 ,  G08G1/0968 ,  G08G1/096816 ,  G08G1/096844 ,  G08G1/205 ,  H04Q9/00 ,  H04Q2209/47

Abstract: The navigational system comprises a plurality of mobile and stationary telemetry-devices, recording spatial data-artifacts, transmitting forecasted positional phase-changes, density point clustering schema that Maptrac's each transport imechanixm; providing calculated digital navigation directives transmitted to a plurality of devices equipped with pAvics, Obvipro and/or other certified compliant telemetry-devices, attached to and or carried by humans, motorcycles, bicycles, skis, snow boards and or a plurality of transport imechanixms; telematic-data of each transmits collected data-relics through a subnaysys network-topology provided by telemetry mobility, viewable and/or audibly heard on iNavX2 virtual interface and or iNavCom centers and/or a facilities interface.

公开(公告)号：US20160379486A1

公开(公告)日：2016-12-29

申请号：US14666588

申请日：2015-03-24

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/01 ,  G07C5/00

CPC classification number: G08G1/0141 ,  G01C21/3415 ,  G01C21/3691 ,  G01C21/3697 ,  G05D1/0285 ,  G05D1/0287 ,  G06K7/10475 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0133 ,  G08G1/0145 ,  G08G1/08 ,  G08G1/0965 ,  G08G1/096725 ,  G08G1/096741 ,  G08G1/096775 ,  G08G1/0968 ,  G08G1/096816 ,  G08G1/096844 ,  G08G1/205 ,  H04Q9/00 ,  H04Q2209/47

Abstract: An apparatus and system to manage monitored traffic density in relationship to spatial locational flow rates. The system includes a variety of mobile and/or stationary transmitting and receiving comm-devices utilizing certified comm-devices equipped Avics iChipset arranged in a polarity of vehicles, in communication with stationary and/or mobile hub comm-devices and/or other certified comm-devices, strategically arranged within and/or along one or more roadways and in communication with a server channel networked to a central server. Configured to receive and/or transmit encrypted traffic data from the diversity of stationary and/or mobile transmitting and receiving comm-devices over the network, update traffic data in the non shared database, continuously calculate optimal traffic density flow for one or more of vehicles traveling along the one or more roadways based on the updated vehicular transit data, transmitting variations in speed adjustments in a network infrastructure to one or more vehicles; adjusting traffic light intersections based on traffic density traversing such roadways based on the optimal traffic flow suggestions combined with Predicated Traffic Artifacts transmitted via system generated encrypted digital comm-advice directives; and in turn share extracted and/or transmitted data with each state an federal DOT departments and other stack holders, including insurance companies and vehicle manufacturers and dealers with information to assist with making the traffic network safer. The present invention presents an Intuitive ITS engaged in Channeled Vehicular Telematics conveying statistical data, from an plurality of network devices, providing informational services forecasting safety-critical features and more, in return gathering and disseminating connected channelled intelligence between vehicles from within and surrounding infrastructures and other shareholders. Such data includes vehicle Phase-Change Spatial analytics from traffic congestion artifacts, along with Consumption Variable Analysis that provides real-time Energy Summation Data from combined vehicle exhausted energy by adjusting traffic flow based on traffic density in relationship with the human factor, vehicle capacity to navigate and topography and climatic variations in relationship with any area being traversed, and most importantly the use of the unique string identification. USIN acknowledged as ‘tMarker Audit Trail’ or simply tMarker Trail as to data inception creation point. Managed within a secure private network infrastructure, each comm-device is synchronized with localized cloud servers in communication will a central server. This invention embarks on a new era in vehicle management, further enhancing time sensitive movements, leaving no doubt as to Vehicle Symmetry Orientation, especially once you move your vehicle and additional particulars currently not beyond the scope of this art presented herein. ITTS will throughly reduce the worlds fossil fuel supply consumption rate and on many other fronts availed by extracted data, transmitted from each vehicles onboard vehicle processor equipped with Avics iChipSet on certified comm-devices, reducing navigational concerns to elementary variables creating a safe traffic network.

公开(公告)号：US20140324326A1

公开(公告)日：2014-10-30

申请号：US14158797

申请日：2014-01-18

Applicant: Donald Warren Taylor

Inventor： Donald Warren Taylor

IPC: G08G1/08

CPC classification number: G08G1/08 ,  G08G1/0112 ,  G08G1/0116 ,  G08G1/0145

Abstract: An apparatus and system for monitoring and managing traffic flow. The system includes a plurality of remote sensor devices arranged in a plurality of vehicles, a plurality of remote communication hub devices operatively arranged along one or more roadways and in communication with the plurality of remote sensor devices, a central server, a network interface in communication with the central server and the plurality of remote communication hub devices over a network, and a shared database in communication with the central server. The central server is configured to receive traffic data from the plurality of remote sensor devices over the network, update traffic data in the shared database, periodically calculate an optimal traffic flow for one or more of vehicles traveling along the one or more roadways based on the updated traffic data, and transmit timing adjustments over the network to one or more traffic light intersections based on the optimal traffic flow calculations. The network interface is configured to send and receive traffic data. The traffic data includes vehicle location information and network traffic congestion information.

Abstract translation: 一种用于监控和管理交通流量的设备和系统。 该系统包括布置在多个车辆中的多个远程传感器装置，沿着一个或多个道路可操作地布置并与多个远程传感器装置通信的多个远程通信集线器装置，中央服务器，通信网络接口 与中央服务器和多个远程通信集线器设备通过网络，以及与中央服务器通信的共享数据库。 中央服务器被配置为通过网络从多个远程传感器设备接收交通数据，更新共享数据库中的交通数据，周期性地计算一条或多条沿着一条或多条道路行驶的车辆的最佳交通流量，基于 更新的交通数据，以及基于最佳交通流量计算，将网络上的定时调整发送到一个或多个交通灯交叉点。 网络接口配置为发送和接收流量数据。 交通数据包括车辆位置信息和网络交通拥堵信息。