公开(公告)号：US5955064A

公开(公告)日：1999-09-21

申请号：US955056

申请日：1997-10-21

申请人： Rocco Giovanniello ,  Nelson Ayala ,  Jing Shen ,  Ketan Shah

发明人： Rocco Giovanniello ,  Nelson Ayala ,  Jing Shen ,  Ketan Shah

IPC分类号： C01F7/48 ,  A61K7/32 ,  A61K7/34 ,  A61K7/38

CPC分类号： A61Q15/00 ,  A61K8/28 ,  A61K8/44 ,  A61K2800/58

摘要： An enhanced antiperspirant active having improved stability and a process for preparing the enhanced antiperspirant active solution are disclosed, the process comprises blending an enhanced basic aluminum chlorohydrate antiperspirant active having a peak 4 content of at least 20% (Component A) with a zirconium hydroxychloride neutral amino acid complex (component B) and a conventional basic aluminum chloride (Component C) , the order of addition not being critical; wherein at least 10% by weight of the total aluminum being derived from Component A and about 90% to 10% of the aluminum being derived from Component C; thereby forming a stable antiperspirant active solution of enhanced efficacy, the overall concentration of reactants in solution being about 38% to 55% by weight.

摘要翻译： 公开了具有改进的稳定性的增强的止汗剂活性物和制备增强的止汗剂活性溶液的方法，该方法包括将具有至少20％的峰4含量（组分A）的增强型碱式水合氯化铝止汗剂活性物与羟基氯化中间体 氨基酸复合物（组分B）和常规碱性氯化铝（组分C），加成顺序不是关键的; 其中至少10重量％的总铝衍生自组分A，约90％至10％的铝衍生自组分C; 从而形成稳定的止汗活性溶液，其效果增强，溶液中反应物的总浓度为约38-55重量％。

公开(公告)号：US20140309959A1

公开(公告)日：2014-10-16

申请号：US14364119

申请日：2011-12-16

申请人： Jing Shen ,  Christopher Jones ,  Dingding Chen ,  Michael T. Pelletier ,  Robert Atkinson ,  David Perkins

发明人： Jing Shen ,  Christopher Jones ,  Dingding Chen ,  Michael T. Pelletier ,  Robert Atkinson ,  David Perkins

IPC分类号： G01V13/00

CPC分类号： G01V13/00 ,  G01N21/274 ,  G01N33/241 ,  G01N2201/129 ,  G01N2201/1296

摘要： A method of calibration transfer for a testing instrument includes: collecting a first sample; generating a standard response of a first instrument based, at least in part, on the first sample; and performing instrument standardization of a second instrument based, at least in part, on the standard response of the first instrument. Data corresponding to a second sample is then obtained using the second instrument and a component of the second sample is identified based, at least in part, on a calibration model.

摘要翻译： 一种用于测试仪器的校准传送方法包括：收集第一个样品; 至少部分地基于第一样品产生第一仪器的标准响应; 并且至少部分地基于第一仪器的标准响应来执行第二仪器的仪器标准化。 然后使用第二仪器获得对应于第二样品的数据，并且至少部分地基于校准模型来识别第二样品的组分。

公开(公告)号：US09863870B2

公开(公告)日：2018-01-09

申请号：US13984813

申请日：2011-02-11

申请人： Jing Shen ,  Christopher Michael Jones ,  Michael T. Pelletier

发明人： Jing Shen ,  Christopher Michael Jones ,  Michael T. Pelletier

IPC分类号： G01J5/02 ,  G01N21/25 ,  E21B47/10 ,  E21B49/08 ,  G01N33/28 ,  G01N21/3577 ,  G01N21/359

CPC分类号： G01N21/255 ,  E21B47/102 ,  E21B49/08 ,  G01N21/3577 ,  G01N21/359 ,  G01N33/2823 ,  G01N2201/129

摘要： A method of using spectroscopic envelopes for determining components in a sample may include selecting spectroscopic envelopes and passing input light through a sample comprising at least one absorbing component is provided. The method includes measuring throughput light with a photo-detector and determining the concentration of the at least one absorbing component in the sample using the measured throughput, wherein at least one of the plurality of spectroscopic envelopes overlaps at least one absorption band of the at least one absorbing component in the sample. An apparatus for determining components in a sample including an input light source having a spectrum and a sample container having a fixed optical path-length is also provided. The apparatus may include a plurality of pre-selected spectroscopic envelopes to select spectral portions of the throughput light from the sample; and at least one photo-detector to measure the throughput light selected by the spectroscopic envelopes.

公开(公告)号：US09029762B2

公开(公告)日：2015-05-12

申请号：US13520558

申请日：2010-05-21

申请人： Jing Shen ,  Christopher M Jones ,  Michael T Pelletier ,  Robert Atkinson ,  Mark Proett

发明人： Jing Shen ,  Christopher M Jones ,  Michael T Pelletier ,  Robert Atkinson ,  Mark Proett

IPC分类号： G01V5/08 ,  E21B49/08 ,  E21B47/10 ,  G01N21/3504 ,  G01N21/33 ,  G01N21/3581 ,  G01N21/359 ,  G01N21/65 ,  G01N21/35 ,  G01N21/39

CPC分类号： E21B49/081 ,  E21B47/10 ,  G01N21/33 ,  G01N21/3504 ,  G01N21/3581 ,  G01N21/359 ,  G01N21/65 ,  G01N2021/3595 ,  G01N2021/399 ,  G01N2021/653 ,  G01N2201/129

摘要： The present invention relates to a method for measuring the characteristics of a downhole fluid. The method for measuring the characteristics of a downhole fluid includes passing a downhole fluid sample through an analyzer, analyzing the downhole fluid sample by illuminating the downhole fluid sample with light from a light source and detecting light that interacts with the fluid sample. The method is applicable to detecting carbon dioxide and/or hydrogen sulfide directly in a downhole environment.

摘要翻译： 本发明涉及一种测量井下流体特性的方法。 用于测量井下流体特性的方法包括使井下流体样品通过分析器，通过用来自光源的光照射井下流体样品并检测与流体样品相互作用的光来分析井下流体样品。 该方法适用于在井下环境中直接检测二氧化碳和/或硫化氢。

公开(公告)号：US20100221723A1

公开(公告)日：2010-09-02

申请号：US12673416

申请日：2008-08-13

申请人： Regina Santella ,  Yu-Jing Zhang ,  Chien Jen Chen ,  Jing Shen

发明人： Regina Santella ,  Yu-Jing Zhang ,  Chien Jen Chen ,  Jing Shen

IPC分类号： C12Q1/68

CPC分类号： C12Q1/6886 ,  C12Q2523/125 ,  C12Q2600/154

摘要： This invention relates to early detection of cancer by detecting methylated DNA in blood. In one embodiment, there is provided a method of predicting the occurrence of hepatocellular carcinoma in a subject, comprising the steps of preparing DNA samples from blood samples of the subject; and determining methylation status of a group of genes comprising RASSF1A, p16 and p15, wherein hypermethylation of these genes as compared to normal control samples indicates the subject is likely to develop hepatocellular carcinoma in the future.

摘要翻译： 本发明涉及通过检测血液中的甲基化DNA来早期检测癌症。 在一个实施方案中，提供了预测受试者中肝细胞癌发生的方法，包括从受试者血液样品中制备DNA样品的步骤; 并确定包含RASSF1A，p16和p15的一组基因的甲基化状态，其中与正常对照样品相比，这些基因的高甲基化表明受试者将来可能发展为肝细胞癌。

公开(公告)号：US10082600B2

公开(公告)日：2018-09-25

申请号：US14364119

申请日：2011-12-16

申请人： Jing Shen ,  Christopher Jones ,  Dingding Chen ,  Michael T. Pelletier ,  Robert Atkinson ,  David Perkins

发明人： Jing Shen ,  Christopher Jones ,  Dingding Chen ,  Michael T. Pelletier ,  Robert Atkinson ,  David Perkins

IPC分类号： G01V13/00 ,  G01N33/24 ,  G01N21/27

CPC分类号： G01V13/00 ,  G01N21/274 ,  G01N33/241 ,  G01N2201/129 ,  G01N2201/1296

摘要： A method of calibration transfer for a testing instrument includes: collecting a first sample; generating a standard response of a first instrument based, at least in part, on the first sample; and performing instrument standardization of a second instrument based, at least in part, on the standard response of the first instrument. Data corresponding to a second sample is then obtained using the second instrument and a component of the second sample is identified based, at least in part, on a calibration model.

公开(公告)号：US08921768B2

公开(公告)日：2014-12-30

申请号：US13636294

申请日：2011-06-01

申请人： Christopher M. Jones ,  Michael T. Pelletier ,  Jing Shen ,  Marian L. Morys

发明人： Christopher M. Jones ,  Michael T. Pelletier ,  Jing Shen ,  Marian L. Morys

IPC分类号： G01V5/00 ,  G01V5/04 ,  E21B47/10 ,  B82Y30/00 ,  G01N21/65 ,  E21B49/00

CPC分类号： E21B47/102 ,  B82Y30/00 ,  E21B49/00 ,  G01N21/658 ,  G01V5/00

摘要： Logging systems and methods that employ nanosensors to obtain spectral measurements downhole. The nanosensors can be dispersed in borehole fluids (including cement slurries) that circulate, diffuse, or get injected in a borehole. Because the nanosensors have diameters on the order of 10 nm to 1000 nm, they readily penetrate into cracks, pores, and other voids where their carrier fluids can reach. The nanosensors transport light sources and recording media to measure spectra in these otherwise inaccessible regions. The nanosensors are then recovered and analyzed to reconstruct the measured spectra and determine relevant material characteristics. Among other things, spectral measurements can reveal the presence of certain elements and molecules in the formation and fluids, from which information scientists determine composition and phases of formation fluids and the formation itself. Certain triggering criteria may also be employed to enable the nanosensor measurements to be associated with specific locations, paths, and/or events.

摘要翻译： 使用纳米传感器在井下获取光谱测量的测井系统和方法。 纳米传感器可以分散在钻孔中的循环，扩散或注入的井眼流体​​（包括水泥浆）中。 因为纳米传感器的直径在10nm到1000nm之间，所以它们很容易渗透到其载体流体可以达到的裂纹，孔隙和其它空隙中。 纳米传感器传输光源和记录介质以测量这些其他不可接近区域的光谱。 然后回收和分析纳米传感器以重建测量的光谱并确定相关的材料特性。 除了别的以外，光谱测量可以揭示地层和流体中某些元素和分子的存在，信息科学家可以从这些元素和分子确定地层流体的组成和阶段以及地层本身。 还可以采用某些触发标准，以使纳米传感器测量与特定位置，路径和/或事件相关联。

公开(公告)号：US08849630B2

公开(公告)日：2014-09-30

申请号：US12146952

申请日：2008-06-26

申请人： Yasuo Amemiya ,  Hendrik F. Hamann ,  Walter Hirt ,  Ying Hung ,  Jing Shen

发明人： Yasuo Amemiya ,  Hendrik F. Hamann ,  Walter Hirt ,  Ying Hung ,  Jing Shen

IPC分类号： G06G7/48 ,  G06G7/56 ,  G06G7/50 ,  G06F17/50 ,  G06F1/20 ,  H05K7/20

CPC分类号： G06F1/206 ,  G06F17/5009 ,  H05K7/20836 ,  Y02D10/16

摘要： Techniques for monitoring and predicting environmental operating conditions in a data center are provided. In one aspect, a method for real-time, three-dimensional analysis of environmental operating conditions in a data center includes the following steps. High spatial resolution three-dimensional measurements of one or more environmental variables in the data center made at a time t1 are obtained. Real-time measurements of the environmental variables in the data center made at a time t2, wherein t2 is later in time than t1, are obtained. The high spatial resolution three-dimensional measurements are combined with the real-time measurements to derive a model for the environmental variables in the data center at the time t2. The model is used to predict three-dimensional distributions of the environmental variables in the data center at the time t2. A base model can be created and used to derive the model for the data center at the time t2.

摘要翻译： 提供了一种用于监测和预测数据中心环境操作条件的技术。 一方面，用于对数据中心中的环境操作条件进行实时，三维分析的方法包括以下步骤。 获得了在时间t1进行的数据中心中的一个或多个环境变量的高空间分辨率三维测量。 在t2时刻对数据中心的环境变量进行实时测量，其中t2时间晚于t1。 将高空间分辨率三维测量与实时测量结合，以在时间t2导出数据中心中的环境变量的模型。 该模型用于预测时间t2的数据中心环境变量的三维分布。 可以创建基本模型并用于在时间t2导出数据中心的模型。

公开(公告)号：US20140042323A1

公开(公告)日：2014-02-13

申请号：US13984813

申请日：2011-02-11

申请人： Jing Shen ,  Christopher Michael Jones ,  Michael T. Pelletier

发明人： Jing Shen ,  Christopher Michael Jones ,  Michael T. Pelletier

IPC分类号： G01N21/25

CPC分类号： G01N21/255 ,  E21B47/102 ,  E21B49/08 ,  G01N21/3577 ,  G01N21/359 ,  G01N33/2823 ,  G01N2201/129

摘要： A method of using spectroscopic envelopes for determining components in a sample may include selecting spectroscopic envelopes and passing input light through a sample comprising at least one absorbing component is provided. The method includes measuring throughput light with a photo-detector and determining the concentration of the at least one absorbing component in the sample using the measured throughput, wherein at least one of the plurality of spectroscopic envelopes overlaps at least one absorption band of the at least one absorbing component in the sample. An apparatus for determining components in a sample including an input light source having a spectrum and a sample container having a fixed optical path-length is also provided. The apparatus may include a plurality of pre-selected spectroscopic envelopes to select spectral portions of the throughput light from the sample; and at least one photo-detector to measure the throughput light selected by the spectroscopic envelopes.

摘要翻译： 使用用于确定样品中的组分的光谱包络的方法可以包括选择光谱包络并将输入光通过包含至少一个吸收组分的样品。 该方法包括使用光检测器测量通过量光，并使用测量的通量来确定样品中至少一种吸收组分的浓度，其中多个光谱包络中的至少一个与至少一个吸收组分的至少一个吸收带重叠 样品中的一种吸收组分。 还提供了一种用于确定样品中的组分的装置，其包括具有光谱的输入光源和具有固定的光程长度的样品容器。 该装置可以包括多个预先选择的光谱包络，以从样品中选择光通量光的部分; 以及至少一个光检测器来测量由光谱包络选择的通过量光。

公开(公告)号：US20130068940A1

公开(公告)日：2013-03-21

申请号：US13636294

申请日：2011-06-01

申请人： Christopher M. Jones ,  Michael T. Pelletier ,  Jing Shen ,  Marian L. Morys

发明人： Christopher M. Jones ,  Michael T. Pelletier ,  Jing Shen ,  Marian L. Morys

IPC分类号： E21B47/10

CPC分类号： E21B47/102 ,  B82Y30/00 ,  E21B49/00 ,  G01N21/658 ,  G01V5/00

摘要： Logging systems and methods that employ nanosensors to obtain spectral measurements downhole. The nanosensors can be dispersed in borehole fluids (including cement slurries) that circulate, diffuse, or get injected in a borehole. Because the nanosensors have diameters on the order of 10 nm to 1000 nm, they readily penetrate into cracks, pores, and other voids where their carrier fluids can reach. The nanosensors transport light sources and recording media to measure spectra in these otherwise inaccessible regions. The nanosensors are then recovered and analyzed to reconstruct the measured spectra and determine relevant material characteristics. Among other things, spectral measurements can reveal the presence of certain elements and molecules in the formation and fluids, from which information scientists determine composition and phases of formation fluids and the formation itself. Certain triggering criteria may also be employed to enable the nanosensor measurements to be associated with specific locations, paths, and/or events.

摘要翻译： 使用纳米传感器在井下获取光谱测量的测井系统和方法。 纳米传感器可以分散在钻孔中的循环，扩散或注入的井眼流体​​（包括水泥浆）中。 因为纳米传感器的直径在10nm到1000nm之间，所以它们很容易渗透到其载体流体可以达到的裂纹，孔隙和其它空隙中。 纳米传感器传输光源和记录介质以测量这些其他不可接近区域的光谱。 然后回收和分析纳米传感器以重建测量的光谱并确定相关的材料特性。 除了别的以外，光谱测量可以揭示地层和流体中某些元素和分子的存在，信息科学家从这些元素和分子中可以确定地层流体的组成和阶段以及地层本身。 还可以采用某些触发标准，以使纳米传感器测量与特定位置，路径和/或事件相关联。