Food science
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RESULTS AND DISCUSSION
We have analyzed four milk samples using this milk analyzing system. We have analyzed 5 factors of various milk samples. Pure Milk, water in milk, salt in milk, and soap adulterants in milk. Analysis of these milk samples is showing in Table 1. We have discussed various previous research work of milk quality analysis. A microcontroller-based system for data monitoring and milk quality analysis is built (Khera et al. 2019). Important milk parameters such as pH, CLR, FAT, and SNF are controlled using this method. The butyrometer is used to measure the fat content of milk. CLR is measured using a lactometer. The SNF value is calculated using the FAT percentage and CLR value. The paper outlined the design and manufacturing process for a low-cost sensing technique based on a radio-frequency excitation electromagnetic planar sensor. Online quality control can be achieved easily thanks to computer- assisted computing (Mukhopadhyay et al. 2005). An IoT-based framework is created (Rajakumar and et al. 2018). The microbial behavior in this system is determined by a gas sensor. The salinity of the milk is calculated by a salinity sensor, and the level of the milk is measured by a level sensor in this device. This system is also RFID-based. Customers have an RFID card that allows them to keep track of their milk dairies. This device tests milk weight, fat, and CLR. This system is both fast and precise. They created a Raspberry Pi3-based framework for this research (Thanedar et al. 2018). They used a web- based platform to replace the desktop application. They devised a method of communicating wirelessly between the mil automation system and the server. They used IoT and data mining to build a milk automation machine. This system reduces overall costs while increasing productivity. This study is focused on the principle of spectroscopy (Sujatha et al. 2019). They created an automated fat measurement device as part of this study. This system is based on embedded technology. For all milk depositors, this device used RFID techniques for unique identification. This can be used to store all information about all milk depositors for future use. They used an Arduino Microcontroller to create a Milkotester for measuring FAT and CLR in milk (Abhishek M et al. 2017). They devised a low-cost method for determining mil parameters such as SNF (Solid but not FAT), FAT, and CLR. They built a smart milk quality detection system in this study (Mahale et al. 2018). Cantered on an Arduino controller, this is a low-cost and effective milk parameter measurement device. The pH, FAT, and SNF of the milk were all determined by this method (Solid but not Fat). To capture milk parameters, the researcher created an Arduino-based device (Bhamre et al. 2016). This device detects milk parameters such as volume, pH, CLR, and SNF. To measure quantity, pH, and CLR, this device employs an ultrasonic sensor, a pH sensor, and a lactometer. This device is both inexpensive and reliable at detecting milk adulteration. Many methods of milk testing are explored in this review article. Various types of sensors were used to detect milk parameters. If milk has been processed for a long time, microbial activity can be identified using a gas sensor. For milk parameter analysis, ultrasound techniques are most widely used (Chavan et al. 2019). This system is built on the Internet of Things (IoT) (Internet of Thinking). Sensors are attached to an Intel Galileo Gen II board in this system. The results of the sensor were saved on the cloud by this Intel Galileo Gen II. Every consumer has access to the data that has been saved. To access these details, you must first log in (Abhishek M et al. 2017). The AVR Microcontroller (Bhade et al. 2019) is used to implement this device. All sensors are integrated with this system to create a compact system. This analyses the quality of milk Arduino-Based Milk Quality Monitoring System 249 Print ISSN : 0974-1712 Online ISSN : 2230-732X using various parameters and displays the results on an LCD screen. These types of milk monitoring systems can help avoid problems in dairies. This system is lightweight and simple to run. Yüklə 0,51 Mb. Dostları ilə paylaş:
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