IT202000014461A1 - AGRI-ZOO-VOLTAIC SYSTEM AND METHOD FOR AGRICULTURAL AND LIVESTOCK INTEGRATION WITHIN PHOTOVOLTAIC POWER STATIONS - Google Patents

Description

DESCRIPTION

Of industrial invention having the title:

SOFTWARE APPLICATION FOR QUALITATIVE DIGITAL COLORIMETRIC ANALYSIS.

The present invention generally relates to a software application (app) capable of recognizing the colors deriving from chemical reactions. The chemical reagents for analysis, when in contact with the molecules being analysed, have a colorimetric reaction. The color developed by the colorimetric reaction is recognized by this app. The app can be installed on any mobile device such as a smartphone and/or tablet and in general on any device equipped with a digital image acquisition system.

At the present state of the art, many analyzes take place by means of a colorimetric reaction. These analyzes can be performed on various samples, blood, serum, CSF, urine, water, etc.. These analyzes are both quantitative and qualitative.

In quantitative analyses, the method involves the use of spectrophotometers. Spectrophotometers calculate the quantity? of light, emitted at a given frequency, absorbed by the sample whose concentration is to be known. These devices then calculate the absorbance of the sample.

In the qualitative method, the color developed by the reaction is compared against a known standard. An example ? the urine test, in fact this test ? performed using strips on which cellulose squares soaked in reagents are inserted. When in contact with urine there is a change in color. The strip is visually compared to other colors printed on paper, then the reaction color is compared with predefined colors.

At the current state of the art, all color recognition applications are not used for analytical purposes and, moreover, are not able to give the same result if installed on different devices. For example, any color recognition application, installed on Samsung smartphones and Huawei smartphones, will give different values in different devices, there? happens why? the electronic architectures of both smartphones and image capture devices are not the same. The same goes for all other mobile and non-mobile devices.

The purpose of the present invention ? use a color recognition application that can? be installed on all mobile and/or non-mobile devices equipped with an image acquisition system, the colors derive from colorimetric reactions resulting from chemical reactions between specific reagents and inert and/or biological samples. This app locates a value that falls within a range of preset values. The app then provides for the interpretation of the data and the compilation of a report that can be saved on the device itself and/or in the cloud and/or sent via social applications and/or e-mail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS. Below, the invention will come described in more detail with reference to the preferred embodiment. However, it is understood that the application and method associated with the invention are applicable for any colorimetric chemical reaction known in the art. An embodiment of a software application for the recognition of colors resulting from chemical reactions? made up of an algorithm that interprets the colors using RGB and/or TRC and/or CMYK and/or HSB and/or HSV and/or HSL and/or Lab classification. The application classifies and stores the image obtained in raster format (stores pixels) and/or in vector format (stores a formula) or in container format (vector and raster). Can? save the image in different formats, such as: tiff, jpeg, gif, psd, pdf. Does it capture depth? 16-bit or 32-bit or 64-bit color. The application acquires the colors deriving from chemical reactions and simultaneously acquires the reference colors specific to the type of analysis, transforms the colors into a numerical code and, using an algorithm, compares the reaction color codes with the reference color codes , the result is displayed with values that fall within certain ranges already? preset. In another embodiment, the application recognizes the reaction colors without using reference colors. In another embodiment, the application uses one color and/or multiple? colors belonging to the classification adopted as a reference. because each mobile and non-mobile device and each image acquisition device have a different electronic and structural architecture, this application overcomes these hardware constraints with the indicated embodiments. In this way both the color to be analyzed and the conditions of brightness, saturation, sharpness and contrast are standardized and no longer? depending on the device used or on the exposure conditions.

The device is used as below

An inert sample? any non-biological material which, placed in certain chemical solutions, reacts with this solution developing a colorimetric reaction; a biological sample? any cellular or tissue sample commonly known in the art, which can be suspended in a liquid-based medium and/or smeared on a slide and/or placed on supports equipped with chemical reagents. Such samples are obtained, for example, from biopsies of the cervical, throat, urine sediment, lymph nodes, esophagus, bronchi, breast (e.g. nipple discharge), skin lesions, thyroid gland, blood, urine. The sample can to be or not to be immersed in a special solution, the sample cos? treated when it comes into contact with special reagents it develops a colorimetric type reaction. The color and/or a set of colors is read by any image acquisition device equipped with smartphones, tablets, laptops, notebooks and non-mobile devices such as PCs; the application correctly installed on these devices recognizes the captured colors and compares the data acquired to the data in memory and/or to the data acquired after calibration with standard colors. The app compiles a document with the various categories according to the type of sample analysed. For example in the case of urinalysis, the application compiles a document with the items of the values: Leukocytes, nitrites, pH, etc. In the case of blood tests, fill in a document with the items of the values: glycemia, blood urea nitrogen, triglycerides, cholesterol, etc.. In the case of cellular and/or microbiological samples, fill in a document with the values of eosinophilia or basophilia and recognition values of bacterial and/or fungal and/or viral pathogens and so on? via for all types of analyzes that can be carried out using a colorimetric reaction.

Claims (1)

There? which is claimed?: 1) Agri-zoo-voltaic system and method of agricultural and livestock integration within photovoltaic power plants characterized by the fact of transforming the area below the photovoltaic panels into greenhouses and cages, including sheets that surround the photovoltaic panels along the entire perimeter from the edge of the panels until they touch the ground, these sheets are also equipped with fans, are humidity sensors placed under the row of panels? soil and air, temperature and pH sensors, an irrigation hose equipped with nebulizers ? placed along the entire length of the greenhouse, said tube? connected to a double chamber tank equipped with a mixing valve, externally the tank? equipped with a filter for the incoming water, lamps applied under the panels and a sim card for sending/receiving data and video, a food and water dispenser for the breeding of animal species, everything is managed by a PLC (Programmable Logic Controller) ; 2) system and method according to claim 1, wherein said PLC manages the input values of the sensors and activates the system for forming the microclimate suitable for the type of cultivation; 3) system and method according to claims 1 and 2, in which the PLC reads the humidity values? by means of humidity sensors? placed under the greenhouse and activates the nebulizer if the values fall below a threshold set in the programming phase; 4) system and method according to claims 1 and 2, in which the PLC reads the temperature values by means of sensors located under the greenhouse and activates the fans to lower the temperature if this is ? above the threshold set in the programming phase; 5) system and method according to claims 1 and 2, wherein the PLC reads the pH value of the soil by means of a sensor placed in the soil under the greenhouse and closes the fertilizer mixing valve if the pH value exceeds a given threshold set during programming; 6) system and method according to claims 1, 2 and 5, in which a two-chamber tank contains a fertilizer and water mixed with the fertilizer to be sprayed under the greenhouse; 7) system and method according to claim 1, wherein the tank is equipped with a filter for the incoming water; 8) system and method according to claim 1, wherein the PLC manages a remote management system; 9) system and method according to claim 1, wherein the PLC manages a video surveillance apparatus; 10) system and method according to claim 1, wherein the PLC automates the distribution of food and water for the breeding of animal species.