公开(公告)号：US20140214891A1

公开(公告)日：2014-07-31

申请号：US13832269

申请日：2013-03-15

Applicant: HADRONEX, INC.

Inventor： Gregory M. Quist ,  David A. Drake ,  David Rees ,  Lawrence B. Merchell ,  Tim C. DeMarco ,  Justin H. Hobbs

IPC: G06F17/30

CPC classification number: H04L67/12 ,  G06Q10/0631

Abstract: A hierarchical data management tool and user interface that provides an efficient and effective means for an organization to organize both users and their access to a system consisting of a large number of remote sensing locations. Various levels of notifications for specified personnel allow the notified persons to respond to alerts in an efficient manner. Personnel can be hierarchically organized according to their qualifications and proximity to the sensing location/alert type.

Abstract translation: 一种分级数据管理工具和用户界面，为组织提供了有效和有效的方式来组织用户及其对由大量遥感位置组成的系统的访问。 指定人员的各种通知允许被通知的人以有效的方式对警报进行响应。 人员可以根据其资格和接近感测位置/警报类型进行分层组织。

公开(公告)号：US20210208238A1

公开(公告)日：2021-07-08

申请号：US17156192

申请日：2021-01-22

Applicant: Hadronex, Inc.

Inventor： Gregory M. Quist ,  David A. Drake

IPC: G01S7/02 ,  E03F5/02 ,  G01S7/48

Abstract: A method and device for controlling EM radiation from an exposed manhole around roadways. A remote field unit controller is disposed under a manhole cover proximal to a roadway, with a sensor attached to either the manhole cover, a manhole, or the remote field unit controller, providing information of at least one of a position, acceleration, direction of the manhole cover. An EM transmitter/receiver and EM emitter/absorber are disposed under the manhole cover and an EM controller communicates to the EM transmitter. When the sensor detects sufficient movement of the manhole cover, a signal is sent to the remote field unit controller to at least one of suppress, alter, and turn off EM emissions from the EM transmitter so as to prevent EM radiation from entering the roadway. The EM transmitter is at least one of a lidar, infrared, EM, and time-of-flight emitter or sensor.

公开(公告)号：US09297684B2

公开(公告)日：2016-03-29

申请号：US14017278

申请日：2013-09-03

Applicant: Hadronex, Inc.

Inventor： Gregory M. Quist ,  David A. Drake ,  Lawrence B. Merchell ,  Justin H. Hobbs

IPC: G01F1/05 ,  G01P3/36 ,  G01F1/66 ,  G01F15/06 ,  G01F1/74 ,  G01F1/00 ,  G01F25/00 ,  G01P5/24 ,  G05D7/06

CPC classification number: G01F15/063 ,  G01F1/002 ,  G01F1/667 ,  G01F1/74 ,  G01F25/0007 ,  G01N2291/02836 ,  G01P5/245 ,  G01P5/247 ,  G05D7/0635

Abstract: In one embodiment, a flow-estimation processor receives one or more flow-depth measurements with each flow-depth measurement having been taken at a respective time. The processor calculates a respective estimated flow rate for each of the times based on the corresponding flow-depth measurement and one or more flow-estimation parameters each set to a respective initial value. The processor outputs the estimated flow rates for presentation via a user interface, and receives via the user interface one or more updated values corresponding respectively to a flow-estimation parameter. The processor calculates an updated estimated flow rate for each of the one or more times, such that each respective updated estimated flow rate is calculated based on the received updated values. The processor then outputs the updated estimated flow rates for presentation via the user interface.

Abstract translation: 在一个实施例中，流量估计处理器接收一个或多个流量深度测量值，每个流量深度测量在相应的时间已经被采集。 处理器基于相应的流量深度测量和每个设置为相应初始值的一个或多个流量估计参数来计算每个时间的相应估计流量。 处理器通过用户界面输出用于呈现的估计流量，并且经由用户界面接收分别对应于流量估计参数的一个或多个更新值。 所述处理器针对所述一次或多次中的每一个计算更新的估计流量，使得基于所接收的更新值计算各个更新的估计流量。 然后处理器通过用户界面输出用于呈现的更新的估计流量。

公开(公告)号：US20140097308A1

公开(公告)日：2014-04-10

申请号：US14102787

申请日：2013-12-11

Applicant: Hadronex, Inc.

Inventor： Justin H. Hobbs ,  Daryl D. Norval ,  David A. Drake ,  Gregory M. Quist

IPC: G01D11/30

CPC classification number: G01D11/30

Abstract: A sensor stabilization platform and method for installation in an enclosure is described, wherein the platform can be lowered into the enclosure from the enclosure's entry way (without requiring a person to enter the enclosure) and properly oriented to provide the structural support/securing capabilities needed for a sensor that is “sensing” the material at the bottom of the enclosure. The securing platform is weighted or configured to rest (without movement) at the bottom of the enclosure floor or manhole, and sensors can be lowered into the platform's receptacle(s), etc. The platform may be configured to be foldable, allowing it to be compact and pass through narrow entry ways.

Abstract translation: 描述了一种用于安装在外壳中的传感器稳定平台和方法，其中平台可以从外壳的进入方式（不需要人进入外壳）下降到外壳中，并且适当地定向以提供所需的结构支撑/固定能力 用于传感器，该传感器“感测”外壳底部的材料。 固定平台被称重或配置为在机壳地板或人孔底部静止（不移动），并且传感器可以下降到平台的插座等中。平台可以被配置为可折叠的，允许 紧凑，通过狭窄的进入方式。

公开(公告)号：US20240219604A1

公开(公告)日：2024-07-04

申请号：US18405580

申请日：2024-01-05

Applicant: HADRONEX, INC.

Inventor： Gregory M Quist ,  David A. Drake ,  Glen A. Hill ,  Lawrence B. Merchell

IPC: G01W1/10 ,  B64C39/02 ,  G06V20/17 ,  B64U101/30 ,  B64U101/35

CPC classification number: G01W1/10 ,  B64C39/024 ,  G06V20/17 ,  B64U2101/30 ,  B64U2101/35

Abstract: An environmental monitoring network has transportable, self-contained, environment sensing capsules, each capsule is water-proof, with first and second sections, the second section being hollow. Apertures in the capsule's housing enable fluid and gas entry wherein first sensor(s) disposed internal to the housing measure within the hollow, and second sensor(s) disposed external to the housing measure external to the housing. A controller and power system are connected to the first and second sensors and transmits measured data. An access entry way is on a side of the housing, enabling access to first sensors, controller system, power system, and the communication system. A central data server is configured to receive and analyze the measurement data sent from the capsules. There is a priority list of appropriate personnel for contact by the central data server in an event there is an emergency condition at a capsule location.

公开(公告)号：US20220342116A1

公开(公告)日：2022-10-27

申请号：US17660205

申请日：2022-04-21

Applicant: HADRONEX, INC.

Inventor： Gregory M. Quist ,  David A. Drake ,  Glen A. Hill ,  Lawrence B. Merchell

IPC: G01W1/10 ,  B64C39/02 ,  G06V20/17

Abstract: An environmental monitoring network has transportable, self-contained, environment sensing capsules, each capsule is water-proof, with first and second sections, the second section being hollow. Apertures in the capsule's housing enable fluid and gas entry wherein first sensor(s) disposed internal to the housing measure within the hollow, and second sensor(s) disposed external to the housing measure external to the housing. A controller and power system are connected to the first and second sensors and transmits measured data. An access entry way is on a side of the housing, enabling access to first sensors, controller system, power system, and the communication system. A central data server is configured to receive and analyze the measurement data sent from the capsules. There is a priority list of appropriate personnel for contact by the central data server in an event there is an emergency condition at a capsule location.

公开(公告)号：US20200224402A1

公开(公告)日：2020-07-16

申请号：US16836838

申请日：2020-03-31

Applicant: HADRONEX, INC.

Inventor： Gregory M. Quist ,  David A. Drake ,  David B. Rees ,  Lawrence B. Merchell ,  John D. Boyd

IPC: E03F5/042 ,  E03F3/02 ,  G05D9/12 ,  E03F5/12 ,  G01F1/32

Abstract: A combined sewer/enclosure overflow (CSO) sensor system is described for accurate detection and measurement of overflow events. From the combined data, trending information can determine if there is debris accumulation. Rain masks can be used in the trending data to measure overall health. External sensors in combination with the CSO sensors provide predictive information and additional levels of information/data accuracy. The sensor system automatically and remotely monitors CSO locations and provides real-time data regarding start times, stop times, duration, and flow volumes of overflows that occur in these structures and provide regulatory and public notification of these events.

公开(公告)号：US09482568B2

公开(公告)日：2016-11-01

申请号：US14017280

申请日：2013-09-03

Applicant: Hadronex, Inc.

Inventor： Gregory M. Quist ,  David A. Drake ,  Lawrence B. Merchell

IPC: G01N19/00 ,  G01F15/00 ,  G01F1/00

CPC classification number: G01F15/00 ,  G01F1/002

Abstract: In one embodiment, a flow-estimation processor receives one or more flow-depth measurements with each flow-depth measurement having been taken at a respective time. The processor calculates a respective estimated flow rate for each of the times based on the corresponding flow-depth measurement and one or more flow-estimation parameters each set to a respective initial value. The processor outputs the estimated flow rates for presentation via a user interface, and receives via the user interface one or more updated values corresponding respectively to a flow-estimation parameter. The processor calculates an updated estimated flow rate for each of the one or more times, such that each respective updated estimated flow rate is calculated based on the received updated values. The processor then outputs the updated estimated flow rates for presentation via the user interface.

Abstract translation: 在一个实施例中，流量估计处理器接收一个或多个流量深度测量值，每个流量深度测量在相应的时间已经被采集。 处理器基于相应的流量深度测量和每个设置为相应初始值的一个或多个流量估计参数来计算每个时间的相应估计流量。 处理器通过用户界面输出用于呈现的估计流量，并且经由用户界面接收分别对应于流量估计参数的一个或多个更新值。 所述处理器针对所述一次或多次中的每一个计算更新的估计流量，使得基于所接收的更新值计算各个更新的估计流量。 然后处理器通过用户界面输出用于呈现的更新的估计流量。

公开(公告)号：US20150066397A1

公开(公告)日：2015-03-05

申请号：US14017280

申请日：2013-09-03

Applicant: Hadronex, Inc.

Inventor： Gregory M. Quist ,  David A. Drake ,  Lawrence B. Merchell

IPC: G01N19/00

CPC classification number: G01F15/00 ,  G01F1/002

Abstract: In one embodiment, a flow-estimation processor receives one or more flow-depth measurements with each flow-depth measurement having been taken at a respective time. The processor calculates a respective estimated flow rate for each of the times based on the corresponding flow-depth measurement and one or more flow-estimation parameters each set to a respective initial value. The processor outputs the estimated flow rates for presentation via a user interface, and receives via the user interface one or more updated values corresponding respectively to a flow-estimation parameter. The processor calculates an updated estimated flow rate for each of the one or more times, such that each respective updated estimated flow rate is calculated based on the received updated values. The processor then outputs the updated estimated flow rates for presentation via the user interface.

Abstract translation: 在一个实施例中，流量估计处理器接收一个或多个流量深度测量值，每个流量深度测量在相应的时间已经被采集。 处理器基于相应的流量深度测量和每个设置为相应初始值的一个或多个流量估计参数来计算每个时间的相应估计流量。 处理器通过用户界面输出用于呈现的估计流量，并且经由用户界面接收分别对应于流量估计参数的一个或多个更新值。 所述处理器针对所述一次或多次中的每一个计算更新的估计流量，使得基于所接收的更新值计算各个更新的估计流量。 然后处理器通过用户界面输出用于呈现的更新的估计流量。

公开(公告)号：US20150066396A1

公开(公告)日：2015-03-05

申请号：US14017278

申请日：2013-09-03

Applicant: Hadronex, Inc.

Inventor： Gregory M. Quist ,  David A. Drake ,  Lawrence B. Merchell ,  Justin H. Hobbs

IPC: G01F1/05 ,  G01P3/36 ,  G01F1/66

CPC classification number: G01F15/063 ,  G01F1/002 ,  G01F1/667 ,  G01F1/74 ,  G01F25/0007 ,  G01N2291/02836 ,  G01P5/245 ,  G01P5/247 ,  G05D7/0635

Abstract: In one embodiment, a flow-estimation processor receives one or more flow-depth measurements with each flow-depth measurement having been taken at a respective time. The processor calculates a respective estimated flow rate for each of the times based on the corresponding flow-depth measurement and one or more flow-estimation parameters each set to a respective initial value. The processor outputs the estimated flow rates for presentation via a user interface, and receives via the user interface one or more updated values corresponding respectively to a flow-estimation parameter. The processor calculates an updated estimated flow rate for each of the one or more times, such that each respective updated estimated flow rate is calculated based on the received updated values. The processor then outputs the updated estimated flow rates for presentation via the user interface.

Abstract translation: 在一个实施例中，流量估计处理器接收一个或多个流量深度测量值，每个流量深度测量在相应的时间已经被采集。 处理器基于相应的流量深度测量和每个设置为相应初始值的一个或多个流量估计参数来计算每个时间的相应估计流量。 处理器通过用户界面输出用于呈现的估计流量，并且经由用户界面接收分别对应于流量估计参数的一个或多个更新值。 所述处理器针对所述一次或多次中的每一个计算更新的估计流量，使得基于所接收的更新值计算各个更新的估计流量。 然后处理器通过用户界面输出用于呈现的更新的估计流量。