CN111142422A - Sensor information processing method for ios system - Google Patents

Abstract

The invention discloses a sensor information processing system for an ios system, comprising a control unit, wherein the control unit is provided with: a first acquisition module to receive sensor data from the first sensor element; a second acquisition module to receive sensor data from the second sensor element; and an output to provide an output signal based on sensor data of the first sensor element as a function of sensor data of the one or more second sensor elements. By adopting the technical means, the sensor of the mobile terminal can be automatically turned on in the process of the multi-screen interactive game, so that the complicated setting time is saved.

Description

Sensor information processing method for ios system

Technical Field

The invention belongs to the technical field of information processing, and particularly relates to a sensor information processing method for an ios system.

Background

With the development of iOS systems, iOS systems have been not limited to use only in simple application scenarios such as cell phones, but have gradually expanded to more complex application scenarios such as robotics, motion monitoring, and the like. In these complex application scenarios, sometimes one sensor of a certain type cannot meet the application requirements, and often a plurality of sensors of the same type need to cooperate to complete corresponding functions. For example: in such a system, if a part of the sensors cannot be used, the missing data is estimated based on the available sensor data. However, in the conventional vehicle sensor system, when a specific sensor cannot be used, the sensor information is estimated using other sensor information. However, in the current iOS system sensor solution, only one sensor of the same type can be operated, which brings difficulties to the application of the iOS system in the above-mentioned more complex application scenarios.

Disclosure of Invention

The invention aims to provide a sensor information processing system for an iOS system, which realizes real-time monitoring and processing of sensor information of the iOS system.

Another object of the present invention is to provide a sensor information processing method for an ios system.

The technical scheme adopted by the invention is that the sensor information processing system for the ios system comprises a control unit, wherein the control unit is provided with: a first acquisition module to receive sensor data from the first sensor element; a second acquisition module to receive sensor data from the second sensor element; and an output to provide an output signal based on sensor data of the first sensor element as a function of sensor data of the one or more second sensor elements.

A sensor information processing method for an ios system, applying a sensor information processing system for an ios system, wherein the sensor elements are flexible large area sensor carriers. The information processing method includes the steps of:

step 1, regularly acquiring sensor information from a plurality of sensors, accumulating the sensor information, and storing the sensor information in an accumulation unit, wherein the accumulation unit is connected with an execution terminal;

step 2, registering the sensor type to a sensor management module; sending the sensor type to a sensor controller; and the sensor controller turns on the corresponding sensor according to the sensor type.

Step 3, extracting other sensors related to the sensor information from the accumulation unit in the execution terminal for each sensor;

step 4, when the execution terminal is requested to acquire the target sensor information, acquiring sensor information of other sensors related to the presence of the target sensor, and estimating the sensor information of the requested sensor;

step 5, determining whether the sensors comprise a plurality of sensors of the same type or not according to the identification information of the sensors;

and 6, if so, loading the data of the plurality of sensors of the same type through corresponding expansion interfaces so as to perform corresponding operation according to the data.

The acquisition module is used for acquiring the identification information of the sensor;

the determining module is used for determining whether the sensors comprise a plurality of sensors of the same type according to the identification information of the sensors; and the loading module is used for loading the data of the plurality of sensors of the same type through corresponding expansion interfaces when the sensors comprise the plurality of sensors of the same type so as to perform corresponding operation according to the data. .

The sensor information includes: the name information of the sensors comprises the types and the serial numbers of the sensors, and the serial numbers are used for indicating the sequencing of the sensors in the sensors of the same type.

Calibrating sensor data from the first sensor element using sensor data from the one or more second sensor elements.

And the sensor data processor is used for acquiring sensor data and sending the sensor data to the virtual sensor processing module.

The method has the advantages that by adopting the technical means, the sensor of the mobile terminal can be automatically turned on in the process of the multi-screen interactive game, and the complicated setting time is saved. Since the sensors having a correlation can be determined by relatively simple processing, the accuracy is high, and the processing load can be reduced. The present invention can estimate sensor information related to an unavailable sensor in a short time in a system having a plurality of sensors. In the present invention, the execution terminal periodically acquires sensor information from each sensor, and narrows down the sensor group associated with each sensor based on the information. When a certain sensor is unavailable and the estimation of sensor information is required, the execution terminal does not use all the sensor information and performs estimation from the sensor information of the sensor having the minimum necessary correlation. Therefore, since sensor information that needs to be acquired to estimate the sensor information can be reduced, the time required for estimation can be shortened. Further, since sensor information having no correlation is not used as a parameter to be estimated, there is an advantage that accurate estimation can be performed.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments, but the present invention is not limited to the specific embodiments.

A sensor information processing system for an ios system, comprising a control unit having: a first acquisition module to receive sensor data from the first sensor element; a second acquisition module to receive sensor data from the second sensor element; and an output to provide an output signal based on sensor data of the first sensor element as a function of sensor data of the one or more second sensor elements. A sensor information processing method for an ios system, applying a sensor information processing system for an ios system, wherein the sensor elements are flexible large area sensor carriers. The information processing method includes the steps of:

step 1, regularly acquiring sensor information from a plurality of sensors, accumulating the sensor information, and storing the sensor information in an accumulation unit, wherein the accumulation unit is connected with an execution terminal;

step 2, registering the sensor type to a sensor management module; sending the sensor type to a sensor controller; and the sensor controller turns on the corresponding sensor according to the sensor type.

Step 3, extracting other sensors related to the sensor information from the accumulation unit in the execution terminal for each sensor;

step 4, when the execution terminal is requested to acquire the target sensor information, acquiring sensor information of other sensors related to the presence of the target sensor, and estimating the sensor information of the requested sensor;

step 5, determining whether the sensors comprise a plurality of sensors of the same type or not according to the identification information of the sensors;

and 6, if so, loading the data of the plurality of sensors of the same type through corresponding expansion interfaces so as to perform corresponding operation according to the data.

The acquisition module is used for acquiring the identification information of the sensor;

the determining module is used for determining whether the sensors comprise a plurality of sensors of the same type according to the identification information of the sensors; and the loading module is used for loading the data of the plurality of sensors of the same type through corresponding expansion interfaces when the sensors comprise the plurality of sensors of the same type so as to perform corresponding operation according to the data. .

The sensor information includes: the name information of the sensors comprises the types and the serial numbers of the sensors, and the serial numbers are used for indicating the sequencing of the sensors in the sensors of the same type.

Calibrating sensor data from the first sensor element using sensor data from the one or more second sensor elements.

And the sensor data processor is used for acquiring sensor data and sending the sensor data to the virtual sensor processing module.

Currently in the prior art, the iOS system defines 26 basic sensor types. Because each type of conventional iOS system supports only one sensor, the conventional technique uses numbers in the range of 1-26 to identify the identity of each type of sensor for the purpose of distinguishing between the sensors in the system. However, as the number of basic sensor types defined by the iOS system increases or decreases, the range of values for identifying the sensor types may also vary, for example, the numbers "1", "2" and "3" may be used to identify the identities of three sensors of different types in the system, respectively. Of course, the name of the sensor is identified by a string of characters capable of representing the type of the sensor in the prior art, which is only an example and is not a unique limitation of the present invention. For example, the name of the acceleration sensor is identified as "accelerometer". In this embodiment, in order to enable the iOS system to simultaneously support a plurality of sensors of the same type and identify and distinguish each sensor, it is preferable to adopt an expression: the identification value of the sensor is generated by multiplying the identification value of the sensor by the preset value x the serial number of the sensor and the type value corresponding to the sensor type, wherein the symbols "x" and "+" represent mathematical meanings "multiply" and "add", and the value of the preset value is greater than the number of the sensor types, for example, if the current iOS system defines 26 basic sensor types, the preset value should be set to a number greater than 26. The type value corresponding to the sensor type described herein is a value of a number used for identifying the identity of each type of sensor in the conventional iOS system. For example, in the conventional technology, a number "1" is used to identify the identity of the acceleration sensor, and the type value corresponding to the acceleration sensor is 1.

In addition, in order to identify a plurality of sensors of the same type in the same system, the present embodiment extends the existing identification method for the name of the sensor, and identifies the name of the sensor by combining the type and the serial number of the sensor. For example, the name of the first acceleration sensor in the plurality of acceleration sensors may be labeled "accelerometer # 1", and the name of the second acceleration sensor may be labeled as: "accelerometer # 2", although this is only an example and not a limitation of the present invention.

The execution terminal determines an initial start time and an initial end time based on the sensor information accumulated for the object sensor so that the sensor information of the object sensor monotonically increases or monotonically decreases during the period. The execution terminal determines a time at which the sensor information of the target sensor has acquired the same value as the initial start time as a next start time candidate, and determines a time at which the sensor information of the target sensor has acquired the same value as the initial end time as a next end time candidate. Then, the next start time and the next end time for obtaining the same time difference as the time difference between the initial start time and the initial end time are determined from the next start time candidate and the next end time candidate (next end time-next start time is the initial end time-initial start time). The next start time and the next end time may select a plurality of combinations, or may select only one set.

In the present invention, the execution terminal may determine that a sensor other than the target sensor is a sensor related to the presence of the target sensor if the initial start time and the next start time are equal in value of the sensor information and the initial end time and the next end time are equal in value of the sensor information. In addition, when determining the next start time and the next end time, the accuracy can be improved by using the condition that the sensor information waveform in the period is the same as the waveform between the initial start time and the initial end time.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A sensor information processing system for an ios system, comprising a control unit having: a first acquisition module to receive sensor data from the first sensor element; a second acquisition module to receive sensor data from the second sensor element; and an output to provide an output signal based on sensor data of the first sensor element as a function of sensor data of the one or more second sensor elements.

2. A sensor information processing method for an ios system, applying a sensor information processing system for an ios system, wherein the sensor elements are flexible large area sensor carriers. The information processing method includes the steps of:

step 1, regularly acquiring sensor information from a plurality of sensors, accumulating the sensor information, and storing the sensor information in an accumulation unit, wherein the accumulation unit is connected with an execution terminal;

step 2, registering the sensor type to a sensor management module; sending the sensor type to a sensor controller; and the sensor controller turns on the corresponding sensor according to the sensor type.

Step 3, extracting other sensors related to the sensor information from the accumulation unit in the execution terminal for each sensor;

step 4, when the execution terminal is requested to acquire the target sensor information, acquiring sensor information of other sensors related to the presence of the target sensor, and estimating the sensor information of the requested sensor;

step 5, determining whether the sensors comprise a plurality of sensors of the same type or not according to the identification information of the sensors;

and 6, if so, loading the data of the plurality of sensors of the same type through corresponding expansion interfaces so as to perform corresponding operation according to the data.

3. A sensor information processing method for an ios system according to claim 1, wherein the acquiring module is configured to acquire identification information of a sensor; the determining module is used for determining whether the sensors comprise a plurality of sensors of the same type according to the identification information of the sensors; and the loading module is used for loading the data of the plurality of sensors of the same type through corresponding expansion interfaces when the sensors comprise the plurality of sensors of the same type so as to perform corresponding operation according to the data. .

4. A sensor information processing method for an ios system according to claim 1, wherein the sensor information includes: the name information of the sensors comprises the types and the serial numbers of the sensors, and the serial numbers are used for indicating the sequencing of the sensors in the sensors of the same type.

5. A sensor information processing method for an ios system according to claim 1, characterized in that the sensor data from the first sensor element is calibrated using sensor data from the one or more second sensor elements.

6. A sensor information processing method for an ios system according to claim 2, wherein the sensor data processor is configured to acquire sensor data and transmit the sensor data to the virtual sensor processing module.