会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 51. 发明申请
    • Systems and methods for evaluating named colors against specified print engines
    • 用于根据指定的打印引擎评估命名颜色的系统和方法
    • US20070002342A1
    • 2007-01-04
    • US11168918
    • 2005-06-29
    • Javier MoralesMichael Farrell
    • Javier MoralesMichael Farrell
    • G03F3/08
    • H04N1/6055H04N1/54
    • Systems and methods of evaluating colors may include a print job source that includes at least one print job, the print job including information of at least one named color. The systems and methods may also include a specified desired state determining device configured to determine a desired state in which the named color in the print job may be reproduced. The systems and methods may also include a desired named color appearance determining device configured to determine a desired named color appearance of the named color in the print job that may be reproduced in the desired state. The systems and methods may also include a specified output device to output the print job. The systems and methods may also include an actual named color appearance determining device configured to determine an actual named color appearance of the named color in the print job that may be reproduced by the output device. Further, the systems and methods may include a difference value determining device configured to determine a difference value between the desired named color appearance and the actual named color appearance of the named color in the print job.
    • 评估颜色的系统和方法可以包括包括至少一个打印作业的打印作业源,所述打印作业包括至少一个命名颜色的信息。 系统和方法还可以包括被配置为确定可以再现打印作业中的命名颜色的期望状态的指定的期望状态确定装置。 系统和方法还可以包括所需的命名颜色外观确定装置,其被配置为确定可以在期望状态下再现的打印作业中的命名颜色的期望的命名颜色外观。 系统和方法还可以包括用于输出打印作业的指定输出设备。 系统和方法还可以包括实际命名的颜色外观确定装置,其被配置为确定可由输出装置再现的打印作业中的命名颜色的实际命名颜色外观。 此外,系统和方法可以包括差值确定装置,其被配置为确定期望的命名颜色外观与打印作业中命名颜色的实际命名颜色外观之间的差值。
    • 53. 发明申请
    • Pipe and cable support apparatus and method
    • 管道和电缆支持设备和方法
    • US20050173597A1
    • 2005-08-11
    • US10775119
    • 2004-02-11
    • Michael FarrellMark MooreVance PattersonDonald ThomasHenry Yonce
    • Michael FarrellMark MooreVance PattersonDonald ThomasHenry Yonce
    • F16L3/22F16L3/223
    • F16L3/223F16L3/22F16L3/222
    • The present invention relates to a support block and a system for roof cooling. The support block supports a pipe above a structure, wherein the pipe has a cross sectional area and a diameter of predetermined dimensions, and the support block includes a number of outer surfaces each having an opening and a cavity. Each cavity has a cross sectional area larger than the cross sectional area of a pipe and the opening can be less than the diameter of the cavity cross sectional area or slightly less than the diameter of a pipe. Dovetail notches on the surfaces of the support block are present to attach the support block onto the roof. Adhesives can be used in the dovetail notches or an adaptor plate attached to the roof can be used to attach the support block to the adaptor plate. Alternatively, the support block can be used to assist in supporting and routing any type of conduit or cabling.
    • 本发明涉及一种用于屋顶冷却的支撑块和系统。 支撑块支撑结构上方的管道,其中管道具有预定尺寸的横截面积和直径,并且支撑块包括多个外表面,每个外表面均具有开口和空腔。 每个空腔的横截面面积大于管道的横截面面积,并且开口可以小于空腔横截面积的直径或略小于管道的直径。 在支撑块的表面上存在燕尾切口以将支撑块附接到屋顶上。 粘合剂可用于燕尾槽或连接到屋顶的适配板可用于将支撑块连接到适配器板上。 或者,支撑块可用于辅助支撑和布置任何类型的导管或布线。
    • 58. 发明授权
    • Method for quantifying biomolecules conjugated to a nanoparticle
    • 用于定量与纳米颗粒缀合的生物分子的方法
    • US07682789B2
    • 2010-03-23
    • US11800360
    • 2007-05-04
    • Xiao-Bo ChenChristopher BieniarzMichael Farrell
    • Xiao-Bo ChenChristopher BieniarzMichael Farrell
    • C12Q1/68G01N33/53C07K14/00C07H21/00C07H21/02C07H21/04
    • C12Q1/37B82Y15/00G01N33/54313G01N33/582Y10T436/143333Y10T436/17Y10T436/25125
    • Disclosed embodiments concern quantifying a biomolecule conjugated to a nanoparticle. Quantifying typically comprises determining the number of biomolecules per nanoparticle. Any suitable biomolecule can be used, including but not limited to, amino acids, peptides, proteins, haptens, nucleic acids, oligonucleotides, DNA, RNA, and combinations thereof. A single type of biomolecule may be conjugated to the nanoparticle, more than one biomolecule of a particular class may be conjugated to the nanoparticle, or two or more classes of biomolecules may be conjugated to the nanoparticle. Certain disclosed embodiments comprise enzymatically or chemically digesting a biomolecule conjugated to the nanoparticle, or displacing a biomolecule using ligand-exchange chemistry. Where biomolecule concentrations are determined, any technique suitable for determining biomolecule concentration can be used, such as spectrophotometric techniques, including measuring tryptophan fluorescence and using a standard fluorescence intensity versus biomolecule concentration curve.
    • 公开的实施方案涉及量化与纳米颗粒缀合的生物分子。 量化通常包括确定每个纳米颗粒的生物分子的数量。 可以使用任何合适的生物分子,包括但不限于氨基酸,肽,蛋白质,半抗原,核酸,寡核苷酸,DNA,RNA及其组合。 单一类型的生物分子可以与纳米颗粒结合,特定类别的多于一种生物分子可以与纳米颗粒缀合,或者两种或更多类别的生物分子可以与纳米颗粒缀合。 某些公开的实施方案包括酶或化学消化与纳米颗粒缀合的生物分子,或使用配体交换化学位移生物分子。 在确定生物分子浓度的情况下,可以使用适合于测定生物分子浓度的任何技术,例如分光光度技术,包括测量色氨酸荧光并使用标准荧光强度与生物分子浓度曲线。