CN108259230A - It is a kind of based on shared environment perception method - Google Patents

Abstract

The invention discloses a kind of based on shared environment perception method, including：Start the photosensitive reading of each equipment of counting user；1）If this photosensitive reading of all devices is less than 50/1000ths compared to a preceding error in reading, by photosensitive reading at this time, it is recorded into data a；2）Otherwise, photosensitive reading during record variation in front and rear each 10S, is recorded as data b, and the correlation matrix of each equipment room is calculated according to data b；After two hours, the correlation matrix of each equipment room is calculated according to data a, the correlation coefficient matrix between weighted calculation all devices；If the related coefficient PCC [A, B] between S3 device As and equipment B, PCC [A, B]>0.6, then illustrate device A, B in same room with them.Advantageous effect：Interfering with each other between distinct device can be evaded, realize the shared of device data so that opening of device or to close rhythm consistent.

Description

It is a kind of based on shared environment perception method

Technical field

The present invention relates to sensor technical field, it particularly relates to a kind of based on shared environment perception method.

Background technology

With the development of IT industry, the concepts such as Internet of Things, smart home are poured in daily life one after another. All kinds of smart machines including mobile phone, tablet computer, smartwatch, movement spire lamella, intelligent glasses also enter the life of people Living, these equipment rely on powerful computing capability, abundant sensor, general data-interface and various application software, Extreme enrichment people’s lives.

At present, mostly for independent control between smart machine, between equipment and state to each other is unaware of, this may be right User is managed collectively smart machine and causes difficulty.

Where can not knowing between lighting apparatus each other in the case of environmental concerns, only by photosensitive reading currently without Effective solution.

Invention content

For the above-mentioned technical problem in the relevant technologies, the present invention propose it is a kind of based on shared environment perception method, It can realize the data sharing between smart machine.

To realize the above-mentioned technical purpose, the technical proposal of the invention is realized in this way：

It is a kind of based on shared environment perception method, including：

S1 starts the photosensitive reading of each equipment of counting user；

It, will at this time 1) if this photosensitive reading of all devices is less than 50/1000ths compared to a preceding error in reading Photosensitive reading, it is a set to be recorded into data a, a, and what is stored in set is timing section (11:00-13:00) ring of record Border light delta data；

2) otherwise, photosensitive reading during record variation in front and rear each 10S, it is also a set to be recorded as data b, b, is stored The timing section (18 for being:00-24:00) data of the light suddenly change occurred in calculate the phase of each equipment room according to data b Relationship matrix number MA_PCC；

After S2 two hours, the correlation matrix NA of each equipment room is calculated on server according to data a_PCC, weighted calculation Correlation coefficient matrix PCC=0.3*NA between all devices_PCC+0.7*MA_PCC；

If the related coefficient PCC [A, B] between S3 device As and equipment B, PCC [A, B]>0.6, then illustrate device A, B same In a room.

Further, the calculation formula of related coefficient is in step S3：

Wherein, photosensitive reading variables of the x1 for device A, y1 For the photosensitive reading variable of equipment B,For the photosensitive reading mean value of device A,Photosensitive reading mean value for equipment B.

Beneficial effects of the present invention：Interfering with each other between distinct device can be evaded, the shared of device data is not only realized, make Opening of device or to close rhythm consistent, and after one equipment of smart machine in same room is avoided to turn off or on The equipment of one closing is then turned on or closes cycle reciprocal in this way.

Description of the drawings

It in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the present invention Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 is a kind of flow diagram based on shared environment perception method described according to embodiments of the present invention.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art's all other embodiments obtained belong to what the present invention protected Range.

As shown in Figure 1, it is described a kind of based on shared environment perception method according to embodiments of the present invention, including：

S1 starts the photosensitive reading of each equipment of counting user；

It, will at this time 1) if this photosensitive reading of all devices is less than 50/1000ths compared to a preceding error in reading Photosensitive reading, be recorded into data a；

2) otherwise, photosensitive reading during record variation in front and rear each 10S, is recorded as data b, is calculated according to data b each The correlation matrix MA of equipment room_PCC；

After S2 two hours, the correlation matrix NA of each equipment room is calculated according to data a_PCC, weighted calculation all devices Between correlation coefficient matrix PCC=0.3*NA_PCC+0.7*MA_PCC；

The change of light is simply divided into two major class in this patent：

1. natural light changes

2. unexpected variation (abbreviation light sudden change)

By the correlation of both photosensitive readings of the variation in two or multiple devices, so changing to natural light Correlation matrix plus weight 0.3, the weight of suddenly change is 0.7.Wherein, if because the photosensitive reading of two equipment has Very big variation, then can more illustrate that this two equipment are in the same area, so weight is larger.

If the related coefficient PCC [A, B] between S3 device As and equipment B, PCC [A, B]>0.6, then illustrate device A, B same In a room.

Further, the calculation formula of related coefficient is in step S3：

Wherein, photosensitive reading variables of the x1 for device A, y1 For the photosensitive reading variable of equipment B,For the photosensitive reading mean value of device A,Photosensitive reading mean value for equipment B.

In order to facilitate understand the present invention above-mentioned technical proposal, below by way of in specifically used mode to the present invention it is above-mentioned Technical solution is described in detail.

It is according to the present invention a kind of based on shared environment perception method when specifically used, including：

S1 starts the photosensitive reading of each equipment of counting user；

It, will at this time 1) if this photosensitive reading of all devices is less than 50/1000ths compared to a preceding error in reading Photosensitive reading, be recorded into data a；

2) otherwise, photosensitive reading during record variation in front and rear each 10S, is recorded as data b, is calculated according to data b each The correlation matrix MA of equipment room_PCC；

After S2 two hours, the correlation matrix NA of each equipment room is calculated according to data a_PCC, weighted calculation all devices Between correlation coefficient matrix PCC=0.3*NA_PCC+0.7*MA_PCC；

If the related coefficient PCC [A, B] between S3 device As and equipment B, PCC [A, B]>0.6, then illustrate device A, B same In a room.

Further, the calculation formula of related coefficient is in step S3：

Wherein, photosensitive reading variables of the x1 for device A, y1 For the photosensitive reading variable of equipment B,For the photosensitive reading mean value of device A,Photosensitive reading mean value for equipment B.

The main purpose of this programme is to identify and judge the relationship of two lighting apparatus present positions, in scheme simply The position relationship of lighting apparatus is divided into following two：

● in same region

● not in the same area

With the degree of overlapping of illumination region to determine whether in same region：

If the degree of overlapping of the illumination region of two lighting apparatus of ■ is higher, illustrate that the two lighting apparatus are in same One regional space；

If the degree of overlapping of the illumination region of two lighting apparatus of ■ than relatively low, illustrates this two equipment.

Moreover, degree of overlapping and photosensitive reading are the relationships of equity, i.e.,：If the illumination region degree of overlapping of two equipment is high, The photosensitive reading correlation for being equivalent to two equipment is also high, similarly, of equal value if the degree of overlapping of the illumination region of two equipment is low It is also low in the correlation of the photosensitive reading of two equipment.

In conclusion the above-mentioned technical proposal by means of the present invention, it is assumed that the photosensitive sensor for the room product that exists together Reading is linearly related, whether judges two products in same room with them by related coefficient, can be evaded between distinct device Interfere with each other, not only realize the shared of device data so that opening of device or to close rhythm consistent, and avoids same The equipment that one equipment of smart machine in room turns off or on the latter closing is then turned on or closes cycle reciprocal in this way.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention With within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention god.

Claims (2)

1. It is 1. a kind of based on shared environment perception method, which is characterized in that include the following steps：

   The photosensitive reading of each equipment of S1 counting users, if this time photosensitive reading misses all devices compared to preceding single reading When difference is less than 50/1000ths, then photosensitive read-record at this time is entered into data a；Otherwise, during record variation in front and rear each 10S Photosensitive reading is recorded as data b, and the correlation matrix QUOTE of each equipment room is calculated according to data b ；

   After S2 two hours, the correlation matrix QUOTE of each equipment room is calculated according to data a , weighted calculation institute There is the correlation coefficient matrix QUOTE of equipment room ；

   If the related coefficient PCC [A, B] between S3 device As and equipment B>0.6, then device A, B are in same room with them.
2. It is 2. according to claim 1 based on shared environment perception method, which is characterized in that related coefficient in step S3 Calculation formula be：

   , wherein, x1 is the photosensitive reading variable of device A, and y1 is sets The photosensitive reading variable of standby B, QUOTE For the photosensitive reading mean value of device A, QUOTE Photosensitive reading for equipment B Mean value.