公开(公告)号：US08084756B2

公开(公告)日：2011-12-27

申请号：US13175491

申请日：2011-07-01

申请人： Eugene Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

发明人： Eugene Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

IPC分类号： G01N21/64 ,  G01J1/42 ,  G01N21/49

CPC分类号： G01N21/8507 ,  G01N21/6402 ,  G01N33/18

摘要： An ultraviolet (UV) fluorometric sensor measures a chemical concentration in a sample based on the measured fluorescence of the sample. The sensor includes a controller, at least one UV light source, and at least one UV detector. The sensor emits UV light in a wavelength range of 245-265 nm from the light source through the sample in an analytical area. The UV detector measures the fluorescence emission from the sample. The controller transforms output signals from the UV detector into fluorescence values or optical densities for one or more wavelengths in the wavelength range of 265-340 nm. The controller calculates the chemical concentration of the chemical in the sample based on the measured fluorescence emissions.

摘要翻译： 紫外线（UV）荧光传感器基于样品的测量荧光测量样品中的化学浓度。 传感器包括控制器，至少一个UV光源和至少一个UV检测器。 传感器在分析区域内通过样品从光源发射波长245-265 nm的紫外光。 UV检测器测量样品的荧光发射。 控制器将来自UV检测器的输出信号转换为在波长范围为265-340nm的一个或多个波长的荧光值或光密度。 控制器基于测量的荧光发射计算样品中化学品的化学浓度。

公开(公告)号：US07652267B2

公开(公告)日：2010-01-26

申请号：US12436593

申请日：2009-05-06

申请人： Eugene T. Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

发明人： Eugene T. Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

IPC分类号： G01N21/64 ,  G01N21/00 ,  G01J3/00

CPC分类号： G01N21/8507 ,  G01N21/6402 ,  G01N33/18

摘要： An ultraviolet (UV) fluorometric sensor measures a chemical concentration in a sample based on the measured fluorescence of the sample. The sensor includes a controller, at least one UV light source, and at least one UV detector. The sensor emits UV light in a wavelength range of 245-265 nm from the light source through the sample in an analytical area. The UV detector measures the fluorescence emission from the sample. The controller transforms output signals from the UV detector into fluorescence values or optical densities for one or more wavelengths in the wavelength range of 265-340 nm. The controller calculates the chemical concentration of the chemical in the sample based on the measured fluorescence emissions.

摘要翻译： 紫外线（UV）荧光传感器基于样品的测量荧光测量样品中的化学浓度。 传感器包括控制器，至少一个UV光源和至少一个UV检测器。 传感器在分析区域内通过样品从光源发射波长245-265 nm的紫外光。 UV检测器测量样品的荧光发射。 控制器将来自UV检测器的输出信号转换为在波长范围为265-340nm的一个或多个波长的荧光值或光密度。 控制器基于测量的荧光发射计算样品中化学品的化学浓度。

公开(公告)号：US20090212236A1

公开(公告)日：2009-08-27

申请号：US12436593

申请日：2009-05-06

申请人： Eugene Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

发明人： Eugene Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

IPC分类号： G01N21/64

CPC分类号： G01N21/8507 ,  G01N21/6402 ,  G01N33/18

摘要： An ultraviolet (UV) fluorometric sensor measures a chemical concentration in a sample based on the measured fluorescence of the sample. The sensor includes a controller, at least one UV light source, and at least one UV detector. The sensor emits UV light in a wavelength range of 245-265 nm from the light source through the sample in an analytical area. The UV detector measures the fluorescence emission from the sample. The controller transforms output signals from the UV detector into fluorescence values or optical densities for one or more wavelengths in the wavelength range of 265-340 nm. The controller calculates the chemical concentration of the chemical in the sample based on the measured fluorescence emissions.

摘要翻译： 紫外线（UV）荧光传感器基于样品的测量荧光测量样品中的化学浓度。 传感器包括控制器，至少一个UV光源和至少一个UV检测器。 传感器在分析区域内通过样品从光源发射波长245-265 nm的紫外光。 UV检测器测量样品的荧光发射。 控制器将来自UV检测器的输出信号转换为在波长范围为265-340nm的一个或多个波长的荧光值或光密度。 控制器基于测量的荧光发射计算样品中化学品的化学浓度。

公开(公告)号：US20060198761A1

公开(公告)日：2006-09-07

申请号：US11070647

申请日：2005-03-03

申请人： Eugene Tokhtuev ,  Viktor Slobodyan ,  Christopher Owen ,  Christopher Buck ,  Anatoly Skirda ,  William Christensen

发明人： Eugene Tokhtuev ,  Viktor Slobodyan ,  Christopher Owen ,  Christopher Buck ,  Anatoly Skirda ,  William Christensen

IPC分类号： G01N21/00

CPC分类号： G01N21/251 ,  G01N21/51

摘要： A portable multi-channel device for optically testing of a liquid sample includes a controller; and a sample holder with a cylindrical sample compartment and at least two optical channels respectively for measuring turbidity of the sample liquid and for measuring one other optical property of the sample liquid. Each of the optical channels including: a light source placed at one end of the channel, a main detector placed across the sample compartment from the light source, a reference detector for measuring an intensity of light emitted by the light source, and an excitation focusing optic for directing a light emitted by the light source through the sample compartment towards the main detector. Signals from the reference detector of the channel, the main detector of the channel, and another main detector of another channel perpendicular to the channel are processed by the controller to evaluate the turbidity of the liquid sample.

公开(公告)号：US06916219B2

公开(公告)日：2005-07-12

申请号：US10290403

申请日：2002-11-08

申请人： Eugene Tokhtuev ,  Anatoly Skirda ,  Viktor Slobodyan ,  Christopher Owen

发明人： Eugene Tokhtuev ,  Anatoly Skirda ,  Viktor Slobodyan ,  Christopher Owen

IPC分类号： G01N1/14 ,  G01N33/18 ,  G01N35/00 ,  B63B22/20

CPC分类号： G01N1/14 ,  C02F2209/02 ,  C02F2209/03 ,  G01N35/00871 ,  G01N2001/021 ,  G01N2035/00881

摘要： An automated system for periodically sampling water bodies, such as lakes, and delivering the test results to a remote computer using a communication system. In particular, the system has a variable buoyancy profiler with a dynamic buoyancy compensator responding approximately linear to a water pressure created by an external water body so as to actively or passively interact with an external force or pressure thereby moving the profiler to a target depth.

摘要翻译： 一种自动化系统，用于定期对诸如湖泊的水体进行采样，并使用通信系统将测试结果传递给远程计算机。 特别地，该系统具有可变浮力分析器，其具有动态浮力补偿器，其响应于由外部水体产生的水压大致线性，以便与外力或压力主动或被动地相互作用，从而将剖析器移动到目标深度。

公开(公告)号：US08502680B2

公开(公告)日：2013-08-06

申请号：US12787064

申请日：2010-05-25

申请人： Eugene Tokhtuev ,  Christopher J. Owen ,  Paul S. Schilling ,  Anatoly Skirda ,  Viktor Slobodyan ,  Joseph P. Erickson ,  Cheryl A. Littau ,  Christopher A. Buck

发明人： Eugene Tokhtuev ,  Christopher J. Owen ,  Paul S. Schilling ,  Anatoly Skirda ,  Viktor Slobodyan ,  Joseph P. Erickson ,  Cheryl A. Littau ,  Christopher A. Buck

IPC分类号： G08B23/00

CPC分类号： G08B21/245 ,  G06F19/00 ,  G06Q10/00 ,  G16H40/20

摘要： A system and associated processes monitor hand hygiene compliance. The system includes hand hygiene product dispensers positioned within areas of concern (AOC) in a facility in which hand hygiene events are to be monitored. The dispensers detect dispense events initiated at the dispenser and transmit a dispense event signal indicative that a dispense event occurred along with dispenser identification information. The system also includes a plurality of compliance badges, each worn by a different person in the facility. Each compliance badge receives dispense event signals corresponding dispenser identification information associated with dispense events initiated by the wearer of the compliance badge. The badges store dispense event records associated with each dispense event initiated by the wearer and thus keep track of all dispense events initiated by the wearer of the compliance badge. One or more data gathering stations positioned at various locations through the facility receive the dispense event information from the individual badges when they come within range. The dispense event information may then be transferred to a local or remote computer for analysis and reporting on hand hygiene events taking place within the facility.

摘要翻译： 系统和相关过程监控手卫生合规性。 该系统包括在需要监控手卫生事件的设施中定位在关注区域（AOC）内的手卫生产品分配器。 分配器检测在分配器处发起的分配事件，并发送指示分发事件发生的分配事件信号以及分配器识别信息。 该系统还包括多个合规徽章，每个符合徽章由设备中的不同人员佩戴。 每个合格标准接收与由合规徽章的佩戴者发起的分配事件相关联的分配标识信息的分配事件信号。 徽章存储与佩戴者发起的每个分配事件相关联的事件记录，并且因此跟踪佩戴者遵守徽章发起的所有分发事件。 通过设施定位在不同位置的一个或多个数据收集站当它们进入范围内时，从个体徽章接收分配事件信息。 分配事件信息随后可被传送到本地或远程计算机，用于分析和报告在设施内发生的手卫生事件。

公开(公告)号：US08395515B2

公开(公告)日：2013-03-12

申请号：US12787097

申请日：2010-05-25

申请人： Eugene Tokhtuev ,  Christopher J. Owen ,  Paul S. Schilling ,  Anatoly Skirda ,  Viktor Slobodyan ,  Joseph P. Erickson ,  Cheryl A. Littau

发明人： Eugene Tokhtuev ,  Christopher J. Owen ,  Paul S. Schilling ,  Anatoly Skirda ,  Viktor Slobodyan ,  Joseph P. Erickson ,  Cheryl A. Littau

IPC分类号： G08B21/00

CPC分类号： G08B21/245 ,  G06F19/00 ,  G06Q10/00 ,  G16H40/20

摘要： A system and associated processes monitor hand hygiene compliance. The system includes hand hygiene product dispensers positioned within areas of concern (AOC) in a facility in which hand hygiene events are to be monitored. The dispensers detect dispense events initiated at the dispenser and transmit a dispense event signal indicative that a dispense event occurred along with dispenser identification information. The system also includes a plurality of compliance badges, each worn by a different person in the facility. Each compliance badge receives dispense event signals corresponding dispenser identification information associated with dispense events initiated by the wearer of the compliance badge. The badges store dispense event records associated with each dispense event initiated by the wearer and thus keep track of all dispense events initiated by the wearer of the compliance badge. One or more data gathering stations positioned at various locations through the facility receive the dispense event information from the individual badges when they come within range. The dispense event information may then be transferred to a local or remote computer for analysis and reporting on hand hygiene events taking place within the facility.

公开(公告)号：US08071390B2

公开(公告)日：2011-12-06

申请号：US12370348

申请日：2009-02-12

申请人： Eugene Tokhtuev ,  Christopher Owen ,  William Christensen ,  Anatoly Skirda ,  Viktor Slobodyan

发明人： Eugene Tokhtuev ,  Christopher Owen ,  William Christensen ,  Anatoly Skirda ,  Viktor Slobodyan

IPC分类号： G01N21/00

CPC分类号： G01N35/085 ,  G01N21/0332 ,  G01N21/05 ,  G01N35/1097 ,  G01N2021/0346 ,  G01N2035/0097 ,  Y10T436/201666 ,  Y10T436/206664

摘要： A use composition monitor determines the concentration of peracid and/or peroxide in a use composition using a kinetic assay procedure. A sample mixture containing a sample of the use composition, a diluent and at least one reagent is prepared and analyzed using, for example, an optical detector. A temperature stabilized optical cell is disclosed which enhance consistency of response data obtained from the optical detector, especially when the use composition monitor is utilized on site.

摘要翻译： 使用组合物监测器使用动力学测定程序确定使用组合物中过酸和/或过氧化物的浓度。 使用例如光学检测器制备并分析含有使用组合物样品，稀释剂和至少一种试剂的样品混合物。 公开了一种温度稳定的光电池，其增强了从光学检测器获得的响应数据的一致性，特别是当现场使用使用组合物监视器时。

公开(公告)号：US07989780B2

公开(公告)日：2011-08-02

申请号：US12633304

申请日：2009-12-08

申请人： Eugene Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

发明人： Eugene Tokhtuev ,  Christopher J. Owen ,  Viktor Slobodyan ,  Anatoly Skirda ,  Paul Schilling ,  Anna Pilipchenko ,  Paul R. Kraus ,  Katherine M. Sanville ,  Joseph Phillip Erickson

IPC分类号： G01N21/64 ,  G01J1/42 ,  G01N21/49

CPC分类号： G01N21/8507 ,  G01N21/6402 ,  G01N33/18

摘要： An ultraviolet (UV) fluorometric sensor measures a chemical concentration in a sample based on the measured fluorescence of the sample. The sensor includes a controller, at least one UV light source, and at least one UV detector. The sensor emits UV light in a wavelength range of 245-265 nm from the light source through the sample in an analytical area. The UV detector measures the fluorescence emission from the sample. The controller transforms output signals from the UV detector into fluorescence values or optical densities for one or more wavelengths in the wavelength range of 265-340 nm. The controller calculates the chemical concentration of the chemical in the sample based on the measured fluorescence emissions.

公开(公告)号：US20090150086A1

公开(公告)日：2009-06-11

申请号：US12370369

申请日：2009-02-12

申请人： Eugene Tokhtuev ,  Christopher Owen ,  Paul Kraus ,  Joseph Erickson ,  Paul Schilling ,  Daniel Kamben ,  William Christensen ,  Viktor Slobodyan

发明人： Eugene Tokhtuev ,  Christopher Owen ,  Paul Kraus ,  Joseph Erickson ,  Paul Schilling ,  Daniel Kamben ,  William Christensen ,  Viktor Slobodyan

IPC分类号： G06F17/00 ,  G01N21/00

CPC分类号： G01N21/274 ,  G01N21/05 ,  G01N21/8507 ,  G01N33/52 ,  G01N33/84 ,  G01N35/085 ,  G01N35/1097 ,  G01N2021/0346 ,  G01N2035/0097 ,  Y10T436/206664 ,  Y10T436/21

摘要： A use composition monitor determines the concentration of peracid and/or peroxide in a use composition using a kinetic assay procedure. A sample mixture containing a sample of the use composition, a diluent and at least one reagent is prepared and analyzed using, for example, an optical detector. Response data obtained by the detector is indicative of the optical absorbance of the sample mixture as a function of time. A processor analyzes the response data to determine a corresponding best fit linear relationship. Depending upon an expected concentration range, the initial absorbance and/or the slope of the best fit equation are used to calculate the concentrations of the peracid and peroxide in the use composition.

摘要翻译： 使用组合物监测器使用动力学测定程序确定使用组合物中过酸和/或过氧化物的浓度。 使用例如光学检测器制备并分析含有使用组合物样品，稀释剂和至少一种试剂的样品混合物。 由检测器获得的响应数据表示作为时间的函数的样品混合物的光吸收。 处理器分析响应数据以确定相应的最佳拟合线性关系。 根据预期的浓度范围，使用最佳拟合方程的初始吸光度和/或斜率来计算使用组合物中过酸和过氧化物的浓度。