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A sensor data processing method and an intelligent temperature sensor

A data processing and sensor technology, applied in the field of sensors, can solve the problems of difficult to obtain effective data, large-scale characteristic information of all data with a long enough time, and weak sensors with signal changes, so as to improve acquisition accuracy and improve The effect of monitoring precision and accurate monitoring results

Active Publication Date: 2020-08-28
安徽云汉智能科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] Aiming at the existing sensors with strong signals of some types but relatively weak signal changes, it is difficult to obtain large-scale characteristic information of the overall data with a long enough time, and it is difficult to obtain effective data even if large-scale information is obtained. The present invention provides A sensor data processing method, while providing an intelligent temperature sensor, through a small number of process-oriented multi-parameter group parameters, instead of massive single raw data, fully maintain the comprehensive information of all data at each time stage, especially large-scale feature information , to achieve the purpose of precise monitoring and early warning

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  • A sensor data processing method and an intelligent temperature sensor

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Embodiment 1

[0033] A method for processing data from an intelligent sensor, comprising a sensor module and a microcontroller module; as figure 1 As shown, the microcontroller module processes data as follows:

[0034] S1, read the signal detected by the temperature sensor;

[0035] S2, convert the signal into a first signal parameter, the first signal parameter includes the first signal value and its generation time; set the base according to actual needs, such as, in the computer room environment, the range of the base can be set to 0-35°, 0-35° is the temperature range when the computer room is turned on according to the national standard. The difference between the first signal value and the set base is integrated with time to obtain the first signal time integral parameter of each time period; the first signal time integral parameter Include the time at which the time integral of the first signal is generated. If the difference is too large, a ratio of the difference to a certain la...

Embodiment 2

[0046] The scheme of this embodiment and embodiment 1 is basically the same, the difference is:

[0047] The parameters of the multi-parameter group also include related parameters of migration jumps and each steady-state neutron mutation, and the related parameters of migration jumps are the start time, duration, positive and negative signs, extreme values, and generation numbers of the migration jumps. One or more; the relevant parameters of each steady-state neutron mutation include one or more of the start time, duration, first signal time integration parameter, positive and negative sign, extreme value and generation sequence number of the sub-mutation, for the computer room In the temperature early warning system, the parameters of the multi-parameter group may also include the serial number of the server in the computer room corresponding to each temperature sensor.

[0048] The duration of the migration transition process from the previous steady-state migration transi...

Embodiment 3

[0053] A temperature sensor, using the smart sensor data processing method of Embodiment 2 for data processing, the only difference is that in step S2, the difference is set to a, a certain large value is c, b=a / c, c is Constant, the value range of c is 10 3 -10 12 , convert the difference into b, and then integrate the time to obtain the time integration parameter of the first signal. The unit dimension is Celsius·hour, and the time integral parameters of the first signal are obtained in the time periods of several seconds, minutes, hours, days, and months.

[0054] Take the temperature environment of the computer room as an example. The value collected by the temperature sensor generally fluctuates in the value range of 10-35°. For the integration of one year or even more than a few years, the generated data cannot reflect the result very intuitively. Therefore, we Through b=a / c, convert a into b for integration. Practice shows that, especially when c takes 10 6 When it i...

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Abstract

The invention discloses a sensor data processing method and an intelligent temperature sensor, belonging to the technical field of sensors. A sensor data processing method, the microcontroller module processes data according to the following steps: read the signal detected by the sensor module; convert the signal into a first signal parameter, and obtain the first signal time integral parameter of each time period; obtain Mutation time integration parameters; establish a multi-parameter group parameter including the first signal parameter, the first signal time integration parameter and the mutation time integration parameter; the multi-parameter group parameters are used as process parameters to make an overall judgment on the monitoring status and feedback results. An intelligent temperature sensor uses the sensor data processing method of the present invention to process data. The present invention judges the temperature status of the monitoring object from different angles through a plurality of parameters including the mutation time integral parameter, greatly improves the stability of data output and display, the accuracy of sensor collection, and the monitoring result is more accurate.

Description

technical field [0001] The invention belongs to the technical field of sensors, and in particular relates to a sensor data processing method and an intelligent temperature sensor. Background technique [0002] At this stage, conventional sensors are generally a detection device made of sensitive materials, which can sense the measured information and convert the sensed information into electrical signals or other required forms of information output according to certain rules. To meet the requirements of information transmission, processing, storage, display, recording and control. The era of the Internet of Things has begun, and various sensors have emerged, providing various data resources from the real physical world. Some sensors collect strong detection object signals, but relatively weak signal changes, and it is difficult to detect and process signal changes. On the one hand, the measurement accuracy of sensors is limited, and it is difficult to distinguish weak sign...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01K1/02G01K11/00G01K15/00
CPCG01K1/02G01K11/00G01K15/007
Inventor 单立辉
Owner 安徽云汉智能科技有限公司