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    • 3. 发明申请
    • SYSTEM FOR MOLECULE IDENTIFICATION
    • 分子鉴定系统
    • WO0196861A8
    • 2002-08-01
    • PCT/SE0101322
    • 2001-06-12
    • ERIKSSON JAN
    • ERIKSSON JAN
    • C07B61/00G06F19/00H01J49/40G01N33/00H01J49/26
    • H01J49/40C40B40/00
    • Mass data are typically not unique -I.e., each experimentally determined mass can match randomly one or several molecules in a database. Random matching between mass data and molecules in a database can cause false identification results. In order to minimize false results, random matching must be appropriately accounted for in a method for molecule identification. The invention provides a method to determine, for any molecule in a database and for any experimental and database search constraints, the probability that a particular number of matches between the mass data and masses of molecule constituents results from random matching. The method utilizes the determined probability for random matching to assign scores and rank molecules in a database. The invention further provides a method of generating a frequency function of scores for any experimental condition or database search constraints, wherein the scores relate to random identifications of molecules. Frequency functions are necessary and sufficient tools for testing the significance of a score associated with an identification of an unknown biological molecule.
    • 质量数据通常不是唯一的 - 即,每个实验确定的质量可以随机地匹配数据库中的一个或几个分子。 数据库中质量数据和分子之间的随机匹配可能导致错误的识别结果。 为了最小化假结果,必须在分子识别方法中适当考虑随机匹配。 本发明提供了一种方法,用于为数据库中的任何分子和任何实验和数据库搜索约束确定质量数据和分子组分的质量之间的特定数量的匹配是由随机匹配产生的概率。 该方法利用确定的随机匹配概率来分配数据库中的分数和秩分子。 本发明还提供了一种生成任何实验条件或数据库搜索约束的分数的频率函数的方法,其中分数涉及分子的随机标识。 频率函数是必要的和足够的工具,用于测试与识别未知生物分子相关的评分的重要性。
    • 4. 发明申请
    • RAILWAY WAGON
    • 铁路运输
    • WO2006031178A9
    • 2006-06-01
    • PCT/SE2005001312
    • 2005-09-12
    • JE UTVECKLING O FOERVALTNING AERIKSSON JAN
    • ERIKSSON JAN
    • B61D3/18B61D20060101B61D3/04B61D47/00
    • B61D3/184B61D47/005
    • The present invention relates to a railway wagon comprising a load carrier and front and rear bogies. The load carrier is releasably connected to, and laterally displaceable in relation to, the respective bogies. Supporting devices are mounted at the ends of the load carrier. They support the load carrier when it is displaced in relation to the bogie. Each supporting device comprises an abutment device which is vertically operable between a pulled-up position and an extended position. At each end of the load carrier there is also a displacing driving device for displacing the load carrier relative to the bogie, and a device that counteracts tilting tendencies of the load carrier. Each abutment device comprises a sliding member, which can slide on the base in the extended position. The railway wagon can thus be displaced, for instance pivoted outwards at one end, to allow a truck to be driven on to or off the same.
    • 本发明涉及一种铁路货车,其包括一个承载器和前后转向架。 承载器可释放地连接到相应的转向架并且可相对于相应的转向架横向移位。 支撑装置安装在载重架的端部。 当它们相对于转向架移动时,它们支撑载货架。 每个支撑装置包括可在上拉位置和伸出位置之间垂直操作的邻接装置。 在载重架的每一端还有用于使载重架相对于转向架移动的位移驱动装置,以及抵消载荷架倾斜趋势的装置。 每个邻接装置包括滑动构件,该滑动构件可以在延伸位置中在基座上滑动。 铁路货车因此可以被移动,例如在一端向外枢转,以允许卡车被驱动到或离开货车。
    • 5. 发明申请
    • LIGHTS SIGNAL
    • 灯信号
    • WO02082403A9
    • 2005-08-18
    • PCT/SE0200683
    • 2002-04-05
    • ERIKSSON JAN
    • ERIKSSON JAN
    • G08G1/095H05B39/04
    • H05B39/042G08G1/095Y02B20/14
    • The invention relates to a device for automatic adapting the signal light in one or in a group of traffic light signal devices dependent on light conditions and in view of the light intensity and angle. The device comprises a special light detector device (2, 2', 4) having at least one light inlet (3, 19, 20, 16, 17) for direct light coming from different directions and said inlet comprises at least one light sensitive device or sensor (5, 6, 6'), by which subseqently respective light is intensity controlled by the direct light at the same time as the general light is delimited and when occurring at least one light inlet (7) to one or more light sensitive devices (8) for detecting general light and adjusting the light intensity in the signal lights (9) of the light signal device in relation to the surroundings.
    • 本发明涉及一种用于根据光线条件并考虑到光强度和角度自动调整信号光在一个或一组交通信号灯信号装置中的装置。 该装置包括具有至少一个用于来自不同方向的直接光的光入口(3,19,20,16,17)的专用光检测器装置(2,2',4),并且所述入口包括至少一个光敏装置 或传感器(5,6,6'),其中随后的光在与一般光被界定的同时被强光控制,并且当至少一个光入口(7)发生到一个或多个光敏感 用于检测一般光并相对于周围环境调节光信号装置的信号光(9)中的光强度的装置(8)。
    • 6. 发明申请
    • METHOD FOR ASSESSING SIGNIFICANCE OF PROTEIN IDENTIFICATION
    • 评估蛋白质鉴定意义的方法
    • WO0077712A9
    • 2002-07-11
    • PCT/US0016638
    • 2000-06-15
    • UNIV ROCKEFELLERERIKSSON JANFENYOE DAVIDCHAIT BRIAN T
    • ERIKSSON JANFENYOE DAVIDCHAIT BRIAN T
    • C07K1/00C07K1/04G01N33/68G06F19/18G06F19/00
    • G01N33/6848C07K1/00C07K1/047G06F19/18
    • A method of generating a frequency distribution of scores for a particular experimental condition, wherein the scores relate to random identifications of biological molecules, the method comprising: a) generating mass data for the particular experimental condition for known biological molecules in a biological molecule database; b) generating mass data of a hypothetical biological molecule for the experimental condition; c) comparing the data generated in step (b) with the data generated for each known biological molecule in step (a); d) calculating a score for each comparison in step (c), wherein the score is a function of similarity between the data generated in step (a), which corresponds to a particular known biological molecule, and the data generated in step (b); e) selecting a score from the scores calculated in step (d), wherein the selected score corresponds to the comparison which denotes a high degree of similarity between the data generated in step (a) and the data generated in step (b); f) repeating steps (b) through (e) with different hypothetical biological molecules until a sufficient quantity of scores are selected; and g) determining the frequency of selecting each score and generating therefrom a frequency distribution of scores.
    • 一种生成特定实验条件的分数的频率分布的方法,其中所述分数涉及生物分子的随机标识,所述方法包括:a)产生生物分子数据库中已知生物分子的特定实验条件的质量数据; b)为实验条件产生假设生物分子的质量数据; c)将步骤(b)中产生的数据与在步骤(a)中为每个已知生物分子生成的数据进行比较; d)计算步骤(c)中每个比较的得分,其中所述得分是步骤(a)中生成的数据(其对应于特定已知生物分子)与步骤(b)中生成的数据之间的相似性的函数, ; e)从步骤(d)中计算的分数中选择分数,其中所选分数对应于表示步骤(a)中生成的数据与步骤(b)中生成的数据之间的高度相似度的比较; f)用不同的假设生物分子重复步骤(b)至(e),直到选择足够数量的分数; 以及g)确定选择每个分数的频率并由此产生分数的频率分布。