Kongunadu College of Engineering and Technology(Autonomous)

  ABSTRACT In Agriculture, Effective seed sowing techniques are essential for managing resources and achieving crop output in agriculture. This abstract introduces a new method of seed sowing with Internet of Things (IoT) technology. One of the biggest problems with traditional approaches is that they might not always guarantee consistent seed spacing or placement, which could result in an uneven harvest and lower yield.In order to address issues with conventional approaches, our intelligent seed sowing Internet of Things strategy is helpful. By employing Internet of Things (IoT) smart seed sowing techniques, in which seeds are sown with precise depths and spacing using specialised tools like bluetooth-controlled seed drills.With the help of an intuitive interface that can be accessed via Bluetooth, it allows for remote control of seed sowing operations. The method for sowing seeds is developed to guarantee precise seed placement and reduce wasted seed. It uses a rotational mecha...

  Wearable technology is redefining the way we look at the environment and ourselves health-wise. Worn on the body, this innovative gadget can range from a simple fitness tracker to smartwatches and more advanced medical devices to augmented reality eyeglasses. They have been designed to improve our daily lives with data in real-time, improving health outcomes, and even changing how we experience the world. Wearable Technology Key Applications 1. Health and Fitness Monitoring: Wearable devices like fitness trackers and smartwatches are becoming ubiquitous in personal health management. These gadgets track vital signs, physical activity, and sleeping habits of users, hence giving insight into a person's health. Advanced models can even detect irregular heartbeats, track blood oxygen levels, and monitor stress. Data collected is synced with health applications so that users can set goals, track progress, and make informed decisions about their well-being. 2. Medical Wearables ...

  ABSTRACT       Oyster mushrooms classified under the Pleurotus species are renowned for their role as primary decomposers and their ability to grow on a variety of substrates. Their effectiveness in biotechnological applications is highlighted by their use in recycling lignocellulosic organic waste. In India, tea is one of the most popular beverages and the market for tea products is growing rapidly. Tea waste which consists of cellulose (28–30%), hemicellulose (10–20%), and lignin (28–30%), offers a unique substrate for mushroom cultivation. This composition contrasts with that of other common mushroom-growing substrates like rice straw and sawdust. Rice straw contains cellulose (32–39%), hemicellulose (23–24%) and lignin (18–36%) while hardwood sawdust includes cellulose (40–55%), hemicellulose (24–40%) and lignin (18–25%).The DHT-22, also known as the AM2302, is a digital-output sensor that measures relative humidity and temperature. It utilizes a capacitiv...

The rapid move toward electrification and hybrid systems has transformed transportation. Now, in the face of growing concerns about climate change, energy security, and air quality, these technologies are being brought to the front lines in reducing greenhouse gas emissions, improving fuel efficiency, and transitioning toward more renewable energy sources. Understanding Electrification and Hybrid Systems By definition, electrification in transportation replaces the internal combustion engine with an electric powertrain-either fully electric, such as battery electric vehicles, or BEVs, or partially electric, such as hybrid electric vehicles, or HEVs. Hybrid systems combine a conventional internal combustion engine with an electric motor. The use of both power sources offers increased fuel efficiency and reduced emissions while maintaining extended range and the convenience of quick refueling like traditional internal combustion engine vehicles. 1. Battery Technology: Electrificati...

  Biomechanics-the study of the mechanical principles of living organisms-represents the foundation upon which medical innovation has been built. By using engineering methods on the living system, biomechanics extends the development of complex medical devices to enhance patient care, improve quality of life, and expand human potential further. Medical Device Understanding through Biomechanics Biomechanics is basically the analysis of forces and motions within the human body-at points from the cellular movements to the dynamics of the whole body. An interdisciplinary approach that uses biology, physics, and engineering explains the movement of the body, the response of tissues to stress, and how mechanical forces influence biological functions. Benefits that would accrue from biomechanics are important at the design of medical devices that are intended for application to or interaction with the human body and ensure efficacy and safety. Significant Biomechanical Applications in Med...

  Industry 4.0 is the latest manufacturing concept that integrates digital technologies in the chain of production. In this age, smart manufacturing will make use of the IoT, AI, robotics, and big data analytics for better efficiency, flexibility, and autonomy. Key Components of Industry 4.0 1. IoT and Connectivity: IoT makes machines, devices, and systems talk to each other, feeding real-time data to analyze and subsequently optimize the processes. In a smart factory, sensors collect data related to equipment performance, environmental conditions, and product quality; thus, predictive maintenance reduces downtime. 2. Artificial Intelligence and Machine Learning: Smart manufacturing really finds its backbone in AI and machine learning. These technologies enable automation of very complex tasks, make for better decision-making because of predictive analytics, and enable customization of products in high volume. AI-driven systems adapt changes in production needs with no human ...

Introduction:           Blue eye is one of the modern technology in the computer world. Humans can use the hand for operating the computer, but in the blue eye technology humans can interact with the computer through their eyes. This is based on the biometrics.           It can be detect the human feelings through a device. It can be detect the feelings of eyes, speech recognition, it can be also understand our mood and feelings. Methodology:           Emotional Mouse: It can be obtain the data from our body information like pulse, pressure, skin temperature etc.. through the touch of the user of mouse.           Artificial intelligence Speech Identification: We can asks anything to the pc using the microphone. It can be recognize our voice loudness, pitch, frequency difference and the time gap etc...           Simple User Interest Tracker...

Introduction:             One kind of machine learning called Reinforcement Learning (RL) enables an agent to learn how to behave in an environment by performing certain activities and seeing the results of such acts. As opposed to supervised learning, which involves training the model on a fixed dataset, educating an agent by having it interact with its surroundings. What is Reinforcement Learning?               Within the discipline of reinforcement learning in machine learning, an agent gains decision-making skills by acting in a way that maximizes cumulative rewards. It is inspired by behavioral psychology, where learning is driven by rewards and punishments. Key Concepts in Reinforcement Learning: 1. Exploration vs. Exploitation:             Exploration involves trying new actions to discover their effects, while Exploitation means choosing actions that are known ...

INTRODUCTION:           Artificial intelligence (AI) is revolutionizing various sectors by enhancing functionality and efficiency. In virtual reality (VR), AI creates immersive and dynamic experiences, improving user engagement in entertainment and training. For climate change, AI provides critical insights through advanced modeling and optimization of resources, aiding in the fight against global warming. In Human-Computer Interaction (HCI), AI enables more intuitive and responsive technology interactions, making systems more accessible and user-friendly. In Healthcare, AI enhances diagnostics, personalizes treatment plans, and streamlines patient care, leading to better outcomes. Additionally, AI strengthens security and surveillance by offering sophisticated tools for monitoring, threat detection, and response, improving safety across various environments. THE ROLE OF AI IN VIRTUAL REALITY:               ...

Introduction     In today's fast-evolving world, resilience—the ability to adapt and thrive amid disruptions—has become essential for organizations and societies. Artificial Intelligence (AI) is pivotal in enhancing this resilience, helping organizations anticipate risks, respond effectively, and build stronger systems. This blog explores AI’s impact on resilience, its benefits, and associated challenges. Understanding Resilience in the Digital Age      Modern resilience is about proactive risk management and continuous operations rather than just recovering from setbacks. Traditional methods are often inadequate in the face of rapid change. AI’s ability to examine information, identify trends, and make intelligent decisions offers a transformative approach to resilience. The Role of AI in Enhancing Resilience                AI strengthens resilience by offering advanced tools for preparation, response, and recov...