Table of ContentsIntroductionMethodology and DesignResults and ConclusionsDiscussion of ResultsConclusion and Future WorkInternet of Things (IoT) technology is becoming a part of our life, we can find it in civil and military applications, smart cities, medical applications and mentoring greenhouse, etc. We are building a new Wireless Sensor Network (WSN) module with hyper techniques, so we plan to use electronic devices like Zigbee Lora and RFID in one system to avoid the disadvantages of each device. . We particularly used Lora to cover long distance areas. To manipulate the data coming from the sensors, we suggest using Arduino Uno as it is compacted together. So the researcher designs a small module to carry all the components as a smart node. Say no to plagiarism. Get Custom Essay on “Why Violent Video Games Should Not Be Banned”?Get Original EssayThis research elastically focuses on the application of IoT in livestock located in the Republic of Sudan, to study the Wireless Sensor Networks (WSN) model for cow monitoring with three objectives: prevent cows, monitor their health and control the dairy process. The proposed model aims to simplify real-time data transfer, so that the farmer or decision maker can easily manage their big data through a cloud system or mobile application. Keywords: Internet of Things, Wireless Sensor Network, Radio Frequency Identification, Zigbee.IntroductionIn our country Sudan, we are working on transferring laboratory experiments of IoT technology to farms and cow fields. The contribution of our paper is to design a simple framework to monitor livestock through animal identification (RFID) and tracking system in a demanding landscape using IoT organizations with the latest technologies in wireless communication , the great growth of electronic devices like smart phones helps us to use the Internet of Things ( IoT ), here we have proposed a hyper system used to connect the different devices like sensors to transfer data in packets. All these devices can be equipped with radio frequency identification (RFID), in parallel with ZigBee and Loradevices, establish communication with each other and effectively access them as a remote system. We always think about fulfilling the requirement of implementing health monitoring software and hardware that observes the health status of an animal as well as avoiding animal disease outbreaks. Various researchers have used wireless networks with mounted WSN devices to track individual animal activity and monitor their health status online. These experiences were examined and processed. Some laboratory tests and farm attempts were carried out to evaluate the performance of the proposed WSN model and their protocol. Experiment results are revealed as useful information and graphics via free or paid mobile application software. However, it is necessary to integrate all available sensors and create a well-organized online monitoring system so that the health status of animals can be monitored in real time. On the other hand, we also focus on saving livestock from theft because we know the impact of theft. stock.This article discusses the scope of different wearable technologies for animals, using advanced techniques to keep animals (cows) safe and wellhealth. The article considers all recent developments in the field of WSN and their applications for animal health. In this hyper system, we describe and propose a complete existence monitoring package and an efficient healthcare monitoring system designed using IoT and RFID tags. The results of this article show the strong effectiveness against various medical hazards. Finally, we find in this study simple control methods to collect information in real time so that sensors can thus send data in real time. leading to online remote key monitoring. Devices (IoT) therefore help to increase productivity and monitor the health of crops and livestock. The predictive nature of our model (IoT) allows us to prevent inventory theft and keep it healthy on farms, especially in Sudan, South Sudan and Africa in general. The final goal of our paper is to design a cost-effective network system that uses low-cost, low-power alternative sensor nodes to facilitate a real-time health monitoring application. To achieve this goal, we first plan to design a hyper-network consisting of different types of technologies and a good antenna should be designed to improve the performance of radio coverage in the entire agricultural field. Methodology and Design We are trying to investigate sleep/wake. up Algorithm, which is considered a serious problem in wireless sensor networks (WSN) due to the limited energy of the sensor node and its non-rechargeable battery. The algorithm explained involves retaining sensor energy for a long time through a sleep/wake algorithm applied. This is achieved by keeping the sensor in sleep mode when not in use. This paper researches, applies a self-adaptive sleep/wake algorithm. This method allows each node to automatically decide its own operating mode (sleep, listen or transmit) in each operation in a decentralized process. Here we proposed hardware components of WSN model as shown below. The main system consists of two subsystems data acquisition which is used only to collect data from environmental data, and secondly data analysis which is used as web software which analyzes the collected data for the end user to find them as useful information.Results and conclusionsThe scenario to find the start of the results with downloading data from the surrounding environment and sending by sensors located on the animal's body with different positions of the ears, neck and udder for dairy cattle. If the temperature value increases, compared to the threshold value, the system activates the alarm to turn on, so the cow should be sent to the veterinary clinic, also in case the detection value is abnormal or missing in cows , it is immediately transferred to the farmer so that he can take the necessary measures to save the animals and increase their production. Using RFID tags embedded with sensors, it is very easy to track animals both in and out of the area. The goal of this IoT solution is to overcome this big data by using cheap and low-power alternative sensor nodes capable of providing real-time communication in a simple way. The use of WSN has been proposed as a way to connect these sensor data sources without the need for direct human intervention. When we connect the sensors on cattle body, it will give body temperature, heart beat.