公开(公告)号：EP1598012B1

公开(公告)日：2007-06-06

申请号：EP05016725.3

申请日：2000-04-07

Applicant: STMicroelectronics S.r.l.

Inventor： Rovetta, Alberto ,  Cuce', Antonino ,  Dalessandri, Marco ,  Platania, Davide

IPC: A61B5/16

CPC classification number: A61B5/162 ,  A61B5/18 ,  A61B5/4082 ,  A61B5/7264

公开(公告)号：EP1598012A1

公开(公告)日：2005-11-23

申请号：EP05016725.3

申请日：2000-04-07

Applicant: STMicroelectronics S.r.l.

Inventor： Rovetta, Alberto ,  Cuce', Antonino ,  Dalessandri, Marco ,  Platania, Davide

IPC: A61B5/16

CPC classification number: A61B5/162 ,  A61B5/18 ,  A61B5/4082 ,  A61B5/7264

Abstract: A method of assessing the neuro-psycho-physical condition of a person consists in acquiring, by self-contained hand-held instrumental means, reaction time, execution time and ergometric data of actions performed by the person in carrying out a certain test comprises the steps of processing said time data and said ergometric data calculating the power exerted in performing each action; processing, on the basis of a certain software, data of reaction time and exerted power, producing an information on the neuro-psycho-physical condition. Most preferably, ergometric and reaction time data are processed by a Fuzzy logic processor. The hand held instrument may optionally include also motion and voice articulation classifiers.

Abstract translation: 评估人的神经 - 心理 - 身体状况的方法在于，通过自包含的手持式仪器手段获取人在执行特定测试时执行的动作的反应时间，执行时间和测功数据，其包括 处理所述时间数据和所述测量数据计算在执行每个动作时施加的功率的步骤; 在一定软件的基础上处理反应时间和发挥功率的数据，产生关于神经 - 心理 - 身体状况的信息。 最优选地，测量和反应时间数据由模糊逻辑处理器处理。 手持式仪器可以可选地包括运动和语音清晰度分类器。

公开(公告)号：EP1021980B1

公开(公告)日：2005-08-10

申请号：EP98830572.8

申请日：1998-09-30

Applicant: STMicroelectronics S.r.l.

Inventor： Busacca, Silvia ,  Cuce', Antonino ,  Cucuccio, Antonino

IPC: A47L9/19

CPC classification number: A47L9/19

公开(公告)号：EP1021980A1

公开(公告)日：2000-07-26

申请号：EP98830572.8

申请日：1998-09-30

Applicant: STMicroelectronics S.r.l.

Inventor： Busacca, Silvia ,  Cuce', Antonino ,  Cucuccio, Antonino

IPC: A47L9/19

CPC classification number: A47L9/19

Abstract: The invention relates to a method and a device for recognising and warning of the level of fullness of a waste container (5) in a suction system driven by a motor (3) and provided with an internal chamber (4) kept under suction pressure and comprising the waste container (5). The method foresees a measurement of the difference of pressure between the internal chamber (4) and the environment outside the vacuum cleaner and an elaboration of such measurement according to a set of rules in fuzzy logic for producing an electric warning signal corresponding to the filling level of the waste container (5).

Abstract translation: 本发明涉及的方法和用于识别并在由马达（3）驱动的吸入系统中的废物容器（5）的充满水平的警告的装置和设置有在内部腔室（4）保持在吸入压力下和 包括废物容器（5）。 该方法预见的压力的内部腔室（4）与所述真空吸尘器外部并且寻求测量雅丁到一组的在模糊逻辑规则的制定的环境为在对应于填充水平电动警告信号产生之间的差的测量 废物容器（5）。

公开(公告)号：EP0917069B1

公开(公告)日：2004-10-13

申请号：EP97830611.6

申请日：1997-11-18

Applicant: STMicroelectronics S.r.l.

Inventor： Cuce', Antonino ,  Di Guardo, Mario

IPC: G06F17/00 ,  A61B5/02

CPC classification number: A61B5/7264 ,  A61B5/022 ,  A61B5/024 ,  Y10S128/92

公开(公告)号：EP0917069A1

公开(公告)日：1999-05-19

申请号：EP97830611.6

申请日：1997-11-18

Applicant: STMicroelectronics S.r.l.

Inventor： Cuce', Antonino ,  Di Guardo, Mario

IPC: G06F17/00 ,  A61B5/02

CPC classification number: A61B5/7264 ,  A61B5/022 ,  A61B5/024 ,  Y10S128/92

Abstract: The invention relates to a method for an indirect measure, by the application of fuzzy logic rules, of a physical signal (G1) to be monitored which would be difficult to measure by a direct method and which has at least first (PD) and second (PS) significant values, these significant values (PD,PS) splitting said physical signal (G1) to be monitored time-wise into a first operational zone (Z1) corresponding to values below the first significant value (PD), a second operational zone (Z2) corresponding to values between the first (PD) and second (PS) significant values, and a third operational zone (Z3) corresponding to values above the second significant value (PS), only said second operational zone (Z2) being involved by the presence of a periodic index signal related to the physical signal (G1) to be monitored. The measuring method of this invention comprises the steps of:

obtaining a derived physical signal (G2) from the physical signal (G1) to be monitored, this derived physical signal (G2) having a similar behavior as said physical signal (G1) to be monitored but trivial influence thereon and being related to said periodic index signal;
measuring the value (P) of the derived physical signal (G2) and its variations over time at suitably selected check points (CP1,CP2,CP3,...,CPn);
deriving the presence or absence of the periodic index signal by means of a first set (FUZZY1) of fuzzy rules;
measuring the second (PS) and first (PD) significant values of the physical signal (G1) to be monitored as start and end values, respectively, of the second operational zone (Z2), namely as values which correspond to the start and end of the detection of the periodic index signal presence.

The invention also relates to an apparatus for an indirect measure, by the application of fuzzy logic rules, of a physical signal (G1) to be monitored which would be difficult to measure by a direct method, of a type which comprises a compressor block (2) having a first input (3) connected to an input actuator block (5), a first output (4) connected to an output transducer block (7), and a second output (14) connected to a detector block (12), the input actuator block (5), output transducer block (7) and detector block (12) being connected to a fuzzy controller (24). The measuring apparatus of this invention further comprises a secondary exhaust block (9) connected to the compressor block (2) and effective to produce a derived physical signal (G2) behaving similar as the physical signal to be monitored (G1) but having a trivial influence thereon, and being related to the periodic index signal. The fuzzy controller (24) of the measuring apparatus according to the invention ultimately measures the first and second significant values (PD,PS) of the physical signal (G1) to be monitored by acting on the derived physical signal (G2).
The indirect measuring method and apparatus of this invention can be applied in particular to the non-invasive reading of blood pressure and heart beat frequency.

Abstract translation: 本发明涉及一种用于在间接度量，通过的模糊逻辑规则的应用要监控的物理信号（G1）的，这将是困难的通过直接法来测量，并且具有至少第一（PD）和第二 （PS）显著值，论文显著值（PD，PS）拆分，所述物理信号（G1）被时间上监测到第一操作区（Z1）对应于低于第一显著值的值（PD），第二运算 区（Z2）对应于第一（PD）之间的第二（PS）显著值对应于高于第二显著值（PS）的值的第三操作区域（Z3）的值和，和，只有所述第二操作区域（Z2）是 通过相关的物理信号（G1）的周期性指数信号的存在涉及进行监测。 本发明的测定方法包括以下步骤：从物理信号获取派生物理信号（G2）（G1）到被监测，具有类似的行为作为所述物理信号（G1）这衍生物理信号（G2）是 监测，但在其上微不足道的影响和被相关的所述周期索引信号; 测量所导出的物理信号（G2）和其在适当地选择的检查点（CP1，CP2，CP3，...，CPN）随时间的变化的值（P）; 导出由第一组（FUZZY1）的模糊规则的方式的存在或不存在的周期索引信号的; 测量第二（PS）和第一（PD）的物理信号（G1）的显著值进行分别监视作为起始值和结束值，所述第二操作区域（Z2），即作为对应于开始和结束值 的检测周期索引信号的存在。 因此，本发明涉及的装置用在间接度量，通过的模糊逻辑规则的应用，要监控的物理信号（G1）的哪一个将是困难的通过直接法来测量类型，其包括压缩机块的，（ （2）具有在输入致动器块（5），第一输出连接到第一输入端（3）（4）连接到在连接到检测器块输出换能器块（7），和第二输出（14），12） 中，输入致动器块（5），输出换能器块（7）和检测器块（12）被连接到一个模糊控制器（24）。 本发明的测量装置还包括连接到所述压缩机机体（2）和有效产生衍生物理信号（G2）表现为物理信号相似的次级排气块（9）被监测（G1）而具有微不足道 影响在其上，并且被与所述周期性索引信号。 测量装置gemäß发明的模糊控制器（24）最终测量第一和第二显著值的物理信号的（PD，PS）（G1）通过作用于衍生物理信号（G2）来监测。 本发明的间接测量的方法和设备可特别地适用于血压和心跳频率的非侵入性的读数。