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  • av Kishan Kumar
    367,-

    The Cloud Secure Model for Medical Data in Healthcare is a cutting-edge solution designed to address the challenges of storing, managing, and safeguarding sensitive medical information in cloud environments. This model employs a multi-layered approach to ensure the confidentiality, integrity, and availability of patient data while adhering to stringent regulatory requirements like HIPAA.At its core, the model leverages robust encryption mechanisms to secure data at rest and in transit, rendering it unreadable to unauthorized users. Access controls and identity management protocols are meticulously implemented to restrict data access to authorized personnel only. User authentication is fortified through multi-factor authentication (MFA) to prevent unauthorized entry.To maintain data integrity, the model employs digital signatures and hashing techniques, making it possible to detect any unauthorized alterations to medical records. Additionally, the model integrates continuous monitoring and intrusion detection systems that promptly identify and respond to any suspicious activities within the cloud environment.The Cloud Secure Model also encompasses comprehensive data backup and disaster recovery strategies to ensure the availability of medical data even in the face of unexpected outages or disasters. Regular security audits, vulnerability assessments, and penetration testing are carried out to identify and rectify potential vulnerabilities proactively.The Cloud Secure Model for Medical Data in Healthcare redefines the storage and management of medical information by combining advanced encryption, access controls, data integrity measures, and continuous monitoring. This ensures that patient data remains confidential, unaltered, and accessible only to authorized individuals, ultimately enhancing the overall quality of healthcare services while upholding the highest standards of data security and privacy.

  • av Bharathi Raja
    379,-

    This investigates the multifunctional bioactivity of a diarylheptanoid isolated from Alpinia officinarum in cancer cell signaling through in vitro experiments. The diarylheptanoid, a naturally occurring compound found in Alpinia officinarum, shows potential as a bioactive agent in cancer research.In vitro experiments are conducted in controlled laboratory conditions using cancer cell lines to understand how the diarylheptanoid affects cell signaling pathways related to cancer development, growth, and proliferation. The investigation aims to explore the compound's potential anticancer properties and its impact on specific molecular targets involved in cancer signaling.Researchers analyze various cellular responses, such as cell viability, proliferation, apoptosis, and changes in gene expression, to gain insights into the mechanism of action of the diarylheptanoid. The findings may shed light on its therapeutic potential and provide a basis for further in-depth studies and potential drug development.Understanding the bioactivity of this diarylheptanoid could contribute to the advancement of cancer treatment strategies, supporting the ongoing efforts to combat cancer and improve patient outcomes.

  • av C. Raghavendra
    355,-

    Syndrome detection through distinctive medical images stands at the forefront of modern diagnostic practices. By meticulously analyzing unique visual patterns in medical images, healthcare professionals can identify various syndromes and disorders, enabling timely interventions and personalized patient care.These distinctive images capture specific manifestations of syndromes, showcasing patterns and anomalies that set them apart from typical cases. Cutting-edge imaging technologies such as MRI, CT scans, and specialized imaging modalities are instrumental in this process, offering unprecedented insights into the intricate details of the human body.Syndrome detection through distinctive medical images is a multidisciplinary effort, involving radiologists, clinicians, and artificial intelligence algorithms. These professionals meticulously examine the images, leveraging their expertise to spot subtle variations and correlations that hint at specific syndromes. Moreover, AI-powered tools enhance this process by swiftly processing vast datasets and highlighting potential indicators.The implications of this approach are profound. It expedites diagnosis, aids in prognostication, and tailors treatment strategies to individual patients. Early identification of syndromes empowers healthcare providers to offer timely interventions, improving patient outcomes and quality of life. As technology advances and our understanding of image-based markers deepens, the realm of syndrome detection through distinctive medical images continues to evolve, promising a future where precision medicine is the norm.

  • av Anusuya Devi
    367,-

    Body Sensor Networks (BSN) in medical applications represent a paradigm-shifting approach to healthcare through the integration of wearable sensors on the human body. These networks form a seamless connection between technology and medicine, enabling the continuous monitoring of vital physiological parameters in real-time. Wearable sensors, discreetly positioned, capture essential data such as heart rate, temperature, and movement, providing an uninterrupted stream of information. This capacity for remote patient monitoring revolutionizes healthcare delivery, allowing healthcare professionals to track patients' conditions remotely and intervene promptly when necessary. BSNs excel in early anomaly detection, triggering alerts for critical events and facilitating timely medical attention. With the ability to provide personalized insights through health analytics, these networks empower both individuals and healthcare providers to make informed decisions tailored to specific health patterns. BSN-generated data contributes to research and innovation, driving advancements in disease management, personalized treatment, and medical knowledge. Ultimately, Body Sensor Networks in medical applications embody a transformative leap towards proactive, personalized, and technologically empowered healthcare practices.These networks are composed of an intricate array of wearable sensors, strategically positioned across the body to capture an individual's physiological data in real-time. Through unobtrusive yet highly sophisticated sensors, BSNs continuously monitor vital signs, movement patterns, and other crucial health metrics. This steady stream of data equips healthcare providers with an unprecedented level of insight into a patient's well-being, enabling timely interventions and personalized medical strategies. The potential of BSNs is vast, ranging from remote patient monitoring that transcends geographical boundaries to early detection mechanisms that forewarn of potential health risks. By integrating seamlessly with data analytics, BSNs empower healthcare professionals to decipher patterns, trends, and anomalies, thereby enhancing diagnostics and treatment plans. These networks also fuel the acceleration of medical research, providing a treasure trove of real-world health data for advancements in disease understanding and treatment development. As BSNs become more sophisticated, they hold the promise of transforming healthcare from reactive to proactive, promoting individual well-being, improving patient outcomes, and revolutionizing the medical landscape as we know it.

  • av Ponmalar S
    379,-

    Optical components play a crucial role in the functioning and efficiency of intelligent optical networks, which are advanced communication systems designed to optimize data transmission over optical fibers. These networks enable high-speed data transfer, enhanced bandwidth capacity, and improved network management.Optical Transceivers: Optical transceivers are devices that combine both a transmitter and a receiver in a single module. They convert electrical signals into optical signals for transmission over fiber and vice versa. Transceivers come in various types, such as Small Form-factor Pluggable (SFP), QSFP (Quad Small Form-factor Pluggable), and CFP (C form-factor pluggable), each with specific data rates and applications.Optical Amplifiers: Optical amplifiers are used to boost the optical signals to extend the transmission distance without converting them back to electrical signals. Erbium-Doped Fiber Amplifiers (EDFAs) are commonly used in intelligent optical networks to amplify signals in the C-band and L-band.Optical Splitters/Couplers: These components divide or combine optical signals, allowing one input to be split into multiple outputs or multiple inputs to be combined into one output. Splitters are essential for distributing signals in Passive Optical Networks (PONs) and wavelength division multiplexing (WDM) systems.Wavelength Division Multiplexers (WDM): WDM technology enables the transmission of multiple wavelengths (or colors) of light simultaneously over a single optical fiber. This greatly increases the network's capacity by utilizing different wavelengths to carry different data streams.Optical Filters: Optical filters are used to selectively pass or block specific wavelengths of light. They are crucial for isolating individual channels in WDM systems and for filtering out unwanted noise or signals.Reconfigurable Optical Add-Drop Multiplexers (ROADMs): ROADMs allow dynamic reconfiguration of optical channels, enabling network operators to remotely add or remove wavelengths as needed without disrupting the entire network.

  • av Lilly Thampi
    367,-

    The region of interest (ROI) holds paramount significance in the realms of MRI (Magnetic Resonance Imaging) and ultrasound; two distinct yet complementary medical imaging techniques. In MRI; the ROI refers to the specific anatomical area or volume under scrutiny; meticulously chosen to unravel intricate details within the body. Renowned for its exceptional tissue differentiation and high-resolution capabilities; MRI excels in portraying soft tissues; organs; and intricate structures; proving invaluable in diverse applications like brain; musculoskeletal; and abdominal imaging.Conversely; ultrasound showcases its prowess in real-time imaging; adeptly capturing dynamic processes within the chosen ROI using high-frequency sound waves. The ultrasound ROI pertains to the localized area that undergoes scrutiny; often targeted at fluid-filled regions and superficial structures. This modality boasts portability; safety due to lack of ionizing radiation; and its integral role in obstetric; cardiac; and abdominal imaging.In both MRI and ultrasound; the selection of the ROI is guided by clinical objectives; patient history; and diagnostic requisites. These modalities cater to unique clinical scenarios; MRI; with its multi-planar precision and tissue contrast; delves deep into intricate anatomical zones; while ultrasound; with its immediate insights and non-invasive nature; excels in visualizing real-time activities and fluid-filled spaces. Collectively; these techniques epitomize modern medical imaging's diverse potential; offering a personalized approach to diagnosis and treatment through the judicious selection of the region of interest.

  • av Jayaraj Poroor
    367,-

    This comprehensive explores formal frameworks employed to model and analyze protocol behavior in the context of mobile and embedded systems. Mobile and embedded devices are pervasive in today's interconnected world, communicating with various networks and applications. Ensuring reliable and secure communication is crucial, which necessitates rigorous protocols.The research delves into the application of formal methods, such as finite state machines, process calculi, and formal verification techniques, to capture, model, and validate the behavior of protocols in these dynamic systems. By leveraging formal frameworks, researchers and developers can gain deeper insights into protocol interactions, potential vulnerabilities, and performance bottlenecks. Furthermore, the adoption of formal methods aids in ensuring protocol correctness and compatibility, leading to more robust and trustworthy mobile and embedded systems.This investigation will appeal to academics, researchers, and practitioners in the fields of mobile computing, embedded systems, networking, and formal methods. The findings contribute valuable knowledge for building resilient and dependable protocol implementations in this ever-evolving technological landscape.

  • av Kanthlal S
    367,-

    This investigates the potential effects of the aqueous extract of large cardamom on hypertension and endothelium function in experimental models. Hypertension, a prevalent cardiovascular disorder, is associated with endothelial dysfunction, which plays a critical role in the progression of cardiovascular diseases. Large cardamom, a popular spice with reported medicinal properties, is believed to possess beneficial effects on various health conditions.The research employs experimental models to assess the impact of the aqueous extract of large cardamom on blood pressure levels and endothelial function. Through rigorous analysis and observation, the study aims to shed light on the extract's potential as a therapeutic agent for managing hypertension and improving endothelial health.The findings of this investigation could hold significant implications for healthcare, potentially paving the way for new approaches in managing hypertension and promoting cardiovascular well-being. As large cardamom is easily accessible and widely used in culinary practices, its potential health benefits warrant further exploration and validation.

  • av Vajvinder Kumar
    355,-

    CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) are technologies used in various industries, including the field of medical prosthetics. These technologies play a crucial role in designing and producing high-quality, customized medical prostheses for individuals with limb loss or other physical impairments. Here's how CAD/CAM is applied in the creation of medical prostheses:CAD in Medical Prosthesis:CAD involves creating digital models and designs using specialized software. In the context of medical prosthetics, CAD is used to design and visualize prosthetic devices based on the patient's anatomy and specific needs. Here's how CAD is applied:Patient-Specific Design: CAD software allows prosthetists (professionals who design and fit prostheses) to create patient-specific designs. They can input the patient's measurements and anatomical data to develop a prosthetic limb that fits and functions optimally for that individual.Customization: CAD enables prosthetists to customize the shape, size, and features of the prosthetic limb. This can be particularly important for prostheses that need to mimic the natural appearance and movement of body parts.Virtual Prototyping: CAD models can be used to create virtual prototypes of prostheses. This allows for design iterations and modifications before moving to the manufacturing phase, reducing the chances of errors or discomfort for the patient.CAM in Medical Prosthesis:CAM involves the use of software and machinery to automate the manufacturing process based on the CAD designs. In the context of medical prosthetics, CAM is used to produce the physical prosthetic device from the digital design. Here's how CAM is applied:Computer-Controlled Manufacturing: CAM software takes the CAD model and generates toolpaths for manufacturing machines, such as 3D printers or CNC milling machines. These machines follow the programmed instructions to create the physical prosthetic device.3D Printing: Additive manufacturing, often referred to as 3D printing, is a common CAM technique used in prosthetics. It allows for precise layer-by-layer construction of complex prosthetic designs using materials like plastics, metals, or composites.CNC Machining: Computer Numerical Control (CNC) machines can be used to carve prosthetic components from blocks of materials. This is often used for creating prosthetic sockets and other components that require high precision.The integration of CAD and CAM technologies in the field of medical prosthetics has led to more accurate, efficient, and patient-specific designs. It enables prosthetists to create functional and comfortable prosthetic devices that significantly improve the quality of life for individuals with limb loss or mobility impairments.

  • av Saravanan L
    367,-

    Wireless communication investigations involve the study; analysis; and experimentation of various aspects of transmitting and receiving information without physical connections. This field encompasses a wide range of technologies and applications; including radio waves; microwaves; and infrared signals; used in devices like smartphones; Wi-Fi routers; and satellite communication systems.Researchers and engineers in wireless communication delve into signal propagation; modulation techniques; coding schemes; and protocols to enhance data transfer efficiency; minimize interference; and extend communication range. This work is critical in ensuring seamless connectivity in diverse environments; such as urban areas; remote locations; and even specialized settings like aircraft interiors.In the context of aircraft; wireless communication investigations focus on developing and optimizing systems that provide reliable connectivity to passengers and crew during flights. This involves addressing challenges like signal attenuation due to the aircraft's metal structure; ensuring uninterrupted coverage throughout the cabin; and adhering to safety and interference regulations.By conducting thorough wireless communication investigations; experts can advance the capabilities of wireless technologies; leading to improved connectivity experiences for both everyday users and specialized settings like aircraft; thereby shaping the future of global communication networks.

  • av Vijay Pal
    367,-

    Metabolic syndrome, characterized by a cluster of interconnected risk factors including obesity, insulin resistance, hypertension, and dyslipidemia, has been linked to an increased risk of developing asthma. The underlying mechanisms that connect these seemingly disparate conditions are a subject of growing interest in medical research.Several mechanisms contribute to the heightened asthma risk in individuals with metabolic syndrome. Chronic low-grade inflammation, often present in metabolic syndrome, can exacerbate airway inflammation and hyperresponsiveness, leading to asthma symptoms. Adipose tissue, particularly visceral fat, releases inflammatory cytokines that further promote airway inflammation. Insulin resistance and dysregulated glucose metabolism may also play a role by negatively impacting the immune response and lung function.Lifestyle factors such as physical inactivity and poor diet, commonly associated with metabolic syndrome, may contribute to asthma development. Shared genetic factors and epigenetic changes could also contribute to the observed association between the two conditions.Understanding these intricate mechanisms is crucial for developing targeted interventions to mitigate the risk of asthma in individuals with metabolic syndrome and improve their overall respiratory health.

  • av Rajendran S
    379,-

    The design of an intelligent controller for dynamic systems involves the development and implementation of advanced control strategies that utilize artificial intelligence and machine learning techniques. This approach aims to enhance the performance, adaptability, and efficiency of dynamic systems by enabling them to respond dynamically to changing conditions and uncertainties.Intelligent controllers leverage real-time data and feedback from the system to make informed decisions and adjustments. They can learn from past experiences, optimize control parameters, and predict future behavior, making them well-suited for complex and non-linear dynamic systems.By employing intelligent algorithms such as neural networks, fuzzy logic, genetic algorithms, and reinforcement learning, these controllers can adapt and self-tune in response to varying environmental conditions or system disturbances. This adaptability is particularly beneficial in applications where system dynamics may evolve or become unpredictable.Intelligent controller design has found applications in various fields, including robotics, industrial automation, aerospace, and renewable energy systems. Its ability to optimize system performance, ensure stability, and handle uncertainties makes it a valuable tool for tackling real-world challenges in dynamic system control.

  • av N. Balraj
    379,-

    The impact of technological advancements on cancer healthcare has been profound and transformative. With innovations in diagnostics; treatment; and patient care; the landscape of cancer healthcare has evolved significantly. Cutting-edge technologies such as precision medicine; genomic sequencing; and AI-powered diagnostics have revolutionized early detection and personalized treatment strategies. These advancements enable healthcare professionals to tailor therapies to individual patients based on their genetic makeup; enhancing treatment effectiveness and minimizing adverse effects.Additionally; telemedicine and remote monitoring have improved patient access to specialized care; especially for those in remote areas. Patients can now consult with oncologists and receive follow-up care through virtual platforms; reducing travel burdens and enhancing convenience.Treatment modalities like immunotherapy and targeted therapies have led to more effective and less invasive interventions; significantly improving patient outcomes. Furthermore; data-driven insights derived from large-scale databases contribute to better understanding cancer trends; aiding in preventive strategies and research.Despite these advancements; challenges remain; including ethical considerations; data privacy concerns; and equitable access to technology-driven healthcare. However; the overall impact is undeniably positive; as technology continues to reshape cancer healthcare; offering patients more personalized; efficient; and effective care pathways than ever before.

  • av Sheik Yousuf
    367,-

    Intelligent patterns frequent from large databases refers to the process of discovering meaningful and significant patterns or associations that occur frequently within vast datasets using intelligent data mining techniques.In data mining and pattern recognition, the term "frequent patterns" usually refers to items, sequences, or subsets that appear frequently in a given dataset. These patterns can provide valuable insights into the underlying relationships, trends, and behaviors within the data.Intelligent Patterns: These are meaningful and relevant patterns that are discovered using advanced algorithms and intelligent data analysis techniques. The intelligence here refers to the ability of the algorithms to identify patterns of interest and discard irrelevant or noise patterns.Frequent Patterns: These are patterns that occur frequently or have high support within the dataset. Support refers to the proportion of transactions or instances in which a particular pattern appears.Large Databases: Refers to datasets that are extensive and contain a significant amount of information. Large databases pose challenges for traditional data analysis methods, making intelligent data mining techniques crucial for effective pattern discovery.The process of finding intelligent frequent patterns from large databases typically involves using algorithms like Apriori, FP-Growth, or Eclat, which efficiently search for itemsets or sequences that meet predefined support and confidence thresholds.Applications of discovering frequent patterns include market basket analysis in retail (finding commonly purchased items together), web usage mining (finding frequently visited web pages), bioinformatics (finding frequent gene associations), and more. These patterns are valuable in decision-making, business intelligence, and predictive analytics, as they can reveal hidden relationships and trends within the data that might not be apparent through simple data examination.

  • av Kareemullah H
    379,-

    A framework for real-time biomedical applications serves as a structured and organized approach to designing and developing software systems that handle and process biomedical data in real-time. These applications are essential in various medical contexts, such as patient monitoring, diagnostic tools, medical imaging, and more. Here's a description of such a framework:The Framework for Real-Time Biomedical Applications is a comprehensive software architecture designed to facilitate the development of robust and efficient real-time applications in the field of biomedicine. This framework seamlessly integrates cutting-edge technologies and methodologies to ensure accurate and timely processing of biomedical data for a wide range of medical purposes.This component handles the acquisition of raw biomedical data from sensors, devices, or imaging systems. It includes modules for data filtering, noise reduction, signal enhancement, and calibration. Real-time preprocessing ensures the quality and reliability of the data before further analysis.The heart of the framework, this component employs advanced algorithms to process biomedical data in real time. It encompasses various tasks such as pattern recognition, feature extraction, signal segmentation, and anomaly detection. By utilizing optimized algorithms, this module ensures prompt and accurate analysis, allowing for timely clinical decisions.Machine learning and artificial intelligence techniques are integrated to provide intelligent insights from the data. These algorithms can adapt to changing conditions and optimize performance over time. They aid in disease prediction, diagnosis, and personalized treatment recommendations based on real-time data trends.A user-friendly interface allows healthcare professionals to visualize the processed data, trends, and analysis results. Real-time graphical representations help medical practitioners make informed decisions quickly. Interactive dashboards and customizable views enhance usability and accessibility.The framework ensures seamless integration with existing healthcare systems, Electronic Health Records (EHRs), and other medical databases. It facilitates real-time data sharing across various departments and enables collaboration among healthcare professionals.

  • av Tiwari Kumud
    379,-

    Lesions pivotal in biomedical applications; encompass localized abnormal tissue changes that offer crucial insights for diagnosis; treatment; and research. These anomalies; detectable through various imaging techniques like MRI; CT scans; and microscopy; hold paramount importance in understanding diseases.In the realm of cancer; lesions serve as key markers aiding early detection and staging. By scrutinizing lesion characteristics such as size; shape; and density; medical professionals discern malignancy levels; guiding treatment decisions. Additionally; lesions act as focal points for monitoring disease progression and treatment efficacy over time.In neurological studies; lesions provide invaluable clues to disorders like multiple sclerosis. Their presence; size; and distribution aid in delineating disease patterns and assessing neurological function impairment. Furthermore; lesion identification facilitates personalized treatment strategies.Lesions; both physical and cellular; also play a pivotal role in drug development and testing. Researchers utilize lesion models to study the effects of interventions and potential therapies. By comprehending the impact of these interventions on lesion progression or regression; scientists refine treatment protocols.Ultimately; lesions bridge the gap between research and clinical practice; guiding medical decisions and advancing biomedical knowledge. As technology advances and imaging techniques improve; the detailed characterization of lesions promises enhanced diagnostic precision and targeted therapies across a multitude of health conditions.

  • av Vijaya Kumar
    367,-

    Secured Demand Routing for Mobile is a communication protocol and network routing approach designed to enhance the security and efficiency of data transmission in mobile ad hoc networks (MANETs). MANETs are decentralized networks formed by mobile devices, such as smartphones, laptops, and tablets, that communicate with each other directly, without the need for a fixed infrastructure.In a mobile ad hoc network, securing data transmission is essential due to the dynamic nature of the network and the potential for malicious nodes or eavesdroppers to intercept or tamper with the data. Secured Demand Routing (SDR) aims to address these security challenges while optimizing data delivery in MANETs.Demand-Based Routing: SDR utilizes demand-based routing algorithms, where data packets are transmitted only when there is a specific request or demand for that data. This reduces unnecessary network traffic and improves efficiency.Authentication and Authorization: SDR incorporates robust authentication and authorization mechanisms to ensure that only authorized devices can participate in the network and access sensitive data.Encryption: Data encryption is employed to protect the confidentiality and integrity of the transmitted data, preventing unauthorized access or tampering.Secure Key Management: Efficient key management schemes are used to establish and distribute encryption keys securely among the participating nodes.Intrusion Detection and Prevention: SDR implements intrusion detection and prevention mechanisms to identify and respond to malicious activities or compromised nodes in real-time.Secure Neighbor Discovery: The protocol employs secure neighbor discovery mechanisms to identify and authenticate neighboring nodes before establishing communication links.

  • av Manish Sharma
    379,-

    Integrated Marketing Communication (IMC) is a strategic approach that aims to create a seamless and consistent brand message across various communication channels. This description explores the concept of IMC and its significance in building a strong and unified brand identity.IMC involves the integration and coordination of all marketing communication elements; such as advertising; public relations; sales promotions; direct marketing; social media; and personal selling. The primary objective is to deliver a cohesive brand message to the target audience; ensuring that all interactions with the brand align with the desired image and positioning.By adopting an integrated approach; organizations can achieve a synergistic effect; where the impact of each communication element is amplified by the others. This leads to a more holistic and compelling brand experience for consumers; fostering brand loyalty and enhancing customer engagement.A key aspect of IMC is consistency in messaging and branding across different platforms. Whether it's a print advertisement; a social media post; or a TV commercial; the core message and visual elements should remain consistent; reinforcing the brand's identity and values.IMC also emphasizes the importance of understanding the target audience and tailoring the message to resonate with their needs; preferences; and behaviors. Through market research and customer insights; organizations can craft messages that speak directly to their audience; creating a more meaningful and relevant connection.In the digital age; IMC has become even more crucial as consumers interact with brands through multiple touchpoints and devices. An integrated approach ensures that the brand's message is consistent across online and offline channels; providing a seamless experience for the modern consumer.

  • av B. Smitha
    367,-

    This examines the impact of both playing and watching video games on individuals. In recent years, video games have become a prominent form of entertainment and leisure activity, raising questions about their effects on cognitive, emotional, and behavioral aspects.This research adopts a comprehensive approach, investigating the cognitive and psychological consequences of actively playing video games versus passively watching others play. By utilizing controlled experiments and surveys, the study delves into how these two modes of engagement influence attention, decision-making, problem-solving skills, and emotional responses.The findings of this study have wide-ranging implications for various stakeholders, including educators, parents, and game developers. Understanding the potential benefits and drawbacks of both playing and watching video games can help in designing educational games, formulating guidelines for healthy gaming habits, and enhancing the overall gaming experience.Moreover, the research addresses concerns related to potential negative effects such as excessive screen time, desensitization to violence, and social isolation. By shedding light on the nuances of video game engagement, the study aims to contribute to a more informed and balanced perspective on this prevalent form of entertainment.Ultimately, this research strives to provide evidence-based insights into the effectiveness of video games in various contexts, fostering informed discussions and guiding future research in the realm of gaming and its influence on individuals' cognitive and emotional development.

  • av Sahu Indrajit
    367,-

    Aims to unravel the functional importance of protein interaction networks facilitated by the 19S regulatory particle of the proteasome. The proteasome is a crucial cellular machinery responsible for protein degradation, playing a vital role in maintaining cellular homeostasis and regulating various cellular processes. The 19S regulatory particle is a key component that recognizes and processes ubiquitinated proteins, guiding them to the core proteolytic chamber for degradation.In this research, the scientists investigate the specific protein-protein interactions that occur with the 19S regulatory particle. By elucidating these interactions, the researchers seek to understand how the 19S particle regulates and selects target proteins for degradation, shedding light on the underlying molecular mechanisms.To achieve this, the study likely involves a combination of experimental techniques such as co-immunoprecipitation, yeast two-hybrid assays, mass spectrometry, and advanced computational approaches for data analysis. Through these methods, the researchers can identify the proteins that directly interact with the 19S regulatory particle and form complex networks within the cell.The findings of this research have the potential to provide valuable insights into the complex regulation of protein degradation and its implications in various cellular processes, including cell cycle control, DNA repair, immune response, and protein quality control. Moreover, a deeper understanding of these protein interaction networks could pave the way for the development of targeted therapies to manipulate proteasomal activity, potentially offering new treatment strategies for various diseases, including cancer and neurodegenerative disorders.

  • av P. Kumari
    367,-

    This investigation explores the thrilling potential of brain waves for a new generation identification system. The study aims to harness the unique characteristics of brain waves as a novel and secure method for individual identification.Researchers delve into the field of neurotechnology and conduct in-depth analyses of brain wave patterns. By leveraging electroencephalographic (EEG) signals and advanced signal processing techniques, they aim to develop a sophisticated identification system that can authenticate individuals based on their brain wave responses.Involves gathering data from diverse individuals under different conditions to assess the reliability, accuracy, and feasibility of brain wave-based identification. It explores how variations in brain activity could be utilized to create a robust and adaptable identification system that remains highly secure against potential impersonation or unauthorized access.The potential applications of such a brain wave identification system span across multiple sectors, including security, biometrics, healthcare, and even human-computer interaction. The findings from this research have the potential to revolutionize identification technologies, leading to the creation of more efficient and secure systems that cater to the demands of the new generation.

  • av Vishal Sivakumar
    367,-

    This study focuses on the development of intelligent approaches for the effective segmentation and detection of brain tumors. Leveraging advanced algorithms and artificial intelligence, researchers aim to enhance the accuracy and efficiency of brain tumor detection in medical imaging data.By employing cutting-edge techniques in image processing and machine learning, the study seeks to identify and isolate tumor regions within brain scans, enabling early and precise diagnosis. The intelligent segmentation methods employed aim to delineate tumor boundaries with greater accuracy, facilitating more targeted treatment planning and monitoring of tumor progression.The research also explores the integration of intelligent systems into existing medical workflows, potentially reducing the burden on healthcare professionals and improving patient outcomes. The ultimate goal of this investigation is to contribute to the development of more effective and timely interventions for patients with brain tumors, thereby advancing the field of medical imaging and personalized healthcare.In this groundbreaking research on "Intelligent Brain Tumor Segmentation and Detection," experts delve into the realm of cutting-edge technologies and innovative methodologies. Utilizing state-of-the-art deep learning models, neural networks, and computer vision techniques, the study aims to revolutionize the field of medical imaging for brain tumors.Through a vast dataset of brain scans, researchers strive to develop intelligent algorithms capable of automatically and accurately identifying various types of brain tumors. The implementation of these intelligent approaches is expected to significantly reduce the time and effort required for tumor segmentation, aiding healthcare professionals in making timely and well-informed decisions regarding treatment strategies.

  • av Sadangi Kirubadevi
    367,-

    Presents an innovative energy-efficient protocol designed to facilitate efficient data dissemination within IoT-enabled Wireless Sensor Networks (WSNs). Leveraging the power of optimal intelligent agents, this protocol optimizes data transmission and reception processes, minimizing energy consumption while maximizing network performance.In this cutting-edge approach, intelligent agents act as autonomous entities, strategically analyzing the network's data flow and dynamically adapting their behavior to the changing environment. By employing intelligent decision-making mechanisms, the agents identify the most energy-efficient routes and nodes for data dissemination, ensuring optimal data delivery with minimal energy expenditure.The proposed protocol addresses the unique challenges of WSNs in IoT applications, where energy resources are often scarce and the demand for seamless data exchange is high. By intelligently managing data dissemination, the protocol extends the network's operational lifetime and enhances its overall performance and reliability.Through comprehensive simulations and real-world experiments, we demonstrate the superiority of our energy-efficient protocol over traditional data dissemination methods. This advancement holds great promise for a wide range of IoT applications, including smart cities, environmental monitoring, healthcare, and industrial automation, where resource-efficient data communication is crucial for successful deployment and operation.Join us in exploring "An Energy-Efficient Protocol with Intelligent Agents for Data Dissemination in WSN-enabled IoT," and discover how this pioneering approach can revolutionize the way data is shared and managed in the IoT ecosystem, paving the way for a sustainable and interconnected future.

  • av Vidhi Khandelwal
    379,-

    In the ever-evolving world of visual art, animation has emerged as a revolutionary force, transforming the way artists express their creativity and engage their audiences. This captivating and dynamic medium has brought a new dimension to the traditional forms of art, transcending boundaries and pushing the limits of imagination.This exploration delves into the profound impact animation has had on visual art throughout history. From its humble beginnings as simple hand-drawn frames to the sophisticated digital animations of today, we witness how animation has seamlessly blended with various art forms, breathing life into static canvases and sculptures.Through a captivating journey, we uncover how animation has given artists the power to convey emotions, tell stories, and communicate complex concepts with unparalleled fluidity and versatility. Its ability to manipulate time, space, and reality has opened doors to entirely new artistic expressions that were once unimaginable.Moreover, this investigation uncovers the profound influence of animation on popular culture, shaping the way we perceive and interpret visual stimuli in movies, advertisements, video games, and beyond. As animation continues to evolve, we witness how it is becoming an increasingly essential part of contemporary art, pushing the boundaries of creativity and inspiring a new generation of visionary artists.Join us as we embark on a fascinating exploration of "Animation and its Impact on Visual Art," celebrating the artistry, innovation, and transformative power that this dynamic medium has brought to the world of creativity.

  • av Bulbul Mukherjee
    367,-

    Satellite Attitude Determination with Planetary Landmarks is a crucial aspect of space missions and Earth observation endeavors. It involves the precise determination of a satellite's orientation and position in space relative to identifiable features on planetary surfaces, such as landmarks or geographical points on planets or moons.The process of satellite attitude determination relies on various technologies and methodologies. Attitude sensors, such as gyroscopes and star trackers, provide essential data on the spacecraft's orientation in relation to celestial reference frames. Inertial Measurement Units (IMUs) are often used to measure the spacecraft's accelerations and rotations. Additionally, Global Navigation Satellite Systems (GNSS) can assist in the positioning of the satellite.The use of planetary landmarks plays a vital role in this determination process. By comparing the observed features on the planetary surface with known ephemeris data and image processing techniques, the satellite's orientation can be accurately estimated. Image matching algorithms and computer vision techniques are employed to identify and track these landmarks from the satellite's onboard cameras, enabling a continuous update of its position and orientation.The fusion of data from various sensors, such as the IMU and star trackers, enhances the accuracy and robustness of the satellite's attitude determination. Machine learning algorithms may be incorporated to further refine and optimize the estimation process based on past data and learned patterns.Satellite Attitude Determination with Planetary Landmarks finds applications in numerous fields, including Earth observation missions, planetary exploration, environmental monitoring, climate studies, and even space missions to other celestial bodies. Accurate knowledge of a satellite's attitude is essential for successful spacecraft navigation, instrument pointing, and data acquisition, enabling scientists and researchers to gather valuable data and images from space with precision and efficiency.Furthermore, this technique contributes to autonomous spacecraft operations, allowing the satellite to adapt and adjust its attitude in real-time, ensuring optimal performance and mission success even in dynamic and challenging space environments. As technology advances, the utilization of planetary landmarks for satellite attitude determination continues to evolve, promising increasingly accurate and reliable results for future space missions and scientific endeavors.

  • av S. Baskaran
    355,-

    This research focuses on the implementation of intelligent controllers for single-phase grid-integrated PV (photovoltaic) systems using DC converters. In the pursuit of efficient and effective energy utilization, the integration of PV systems with the grid has become crucial in today's renewable energy landscape.By employing intelligent controllers, this study aims to optimize the performance of PV systems and enhance their grid integration capabilities. These intelligent controllers utilize advanced algorithms and real-time data to regulate the DC converters, ensuring seamless power flow between the PV system and the grid while maintaining grid stability.Through sophisticated control strategies, the intelligent controllers dynamically adapt to varying solar irradiance and grid conditions, maximizing energy harvesting from the PV panels and minimizing power losses during conversion and transmission. The integration of these intelligent controllers significantly improves the overall efficiency and reliability of grid-connected PV systems.In this exploration, we conduct extensive simulations and experimental validations to demonstrate the effectiveness and benefits of the proposed intelligent control approach. The findings of this research offer valuable insights into the potential of intelligent controllers in advancing grid-connected PV technology, paving the way for a sustainable and resilient energy future.Join us as we delve into "Intelligent Controllers for Grid-Integrated PV Systems with DC Converters," and discover how this cutting-edge technology is revolutionizing the way we harness solar energy and contribute to a cleaner and greener world.

  • av Smita Sharma
    403,-

    Explores the potential benefits and obstacles associated with using social networking platforms as marketing communication tools. In the digital age; social media has revolutionized the way businesses engage with their target audiences; making it essential to understand the dynamics and implications of this marketing approach.This research takes a comprehensive approach; examining the various opportunities that social networking sites offer for businesses to reach and connect with their customers. It analyzes the effectiveness of social media marketing in increasing brand visibility; driving traffic; and fostering customer engagement and loyalty.Moreover; delves into the challenges that marketers face in navigating the dynamic landscape of social networking sites. These challenges may include handling negative feedback; managing reputation; dealing with social media algorithms; and ensuring the protection of customer data and privacy.By utilizing surveys; and industry analyses; the study seeks to provide valuable insights for businesses looking to optimize their marketing strategies on social networking platforms. Understanding the opportunities and challenges presented by these sites can help companies develop more targeted and impactful marketing campaigns; leading to a competitive edge in the digital marketplace.Furthermore; the research contributes to the broader discussion of the role of social media in shaping consumer behavior and its impact on the marketing landscape. By addressing the opportunities and challenges associated with using social networking sites as marketing communication tools; this study offers valuable guidance for businesses to make informed decisions and navigate the ever-evolving world of digital marketing successfully.

  • av D. John
    379,-

    The effects of relaxation training and regular yoga practice on anxiety levels and overall wellbeing. In today's fast-paced and stressful world, understanding effective methods for reducing anxiety and promoting wellbeing is of great importance.This research employs a systematic approach, utilizing controlled experiments or clinical trials to assess the impact of relaxation training and yoga on anxiety levels. Participants are exposed to relaxation techniques and yoga practices aimed at reducing stress, promoting relaxation, and improving mental and emotional balance.This evaluates changes in anxiety symptoms, stress levels, and overall wellbeing before and after the intervention. By utilizing standardized anxiety scales and wellbeing assessments, the research aims to provide evidence-based insights into the efficacy of relaxation training and yoga as anxiety-reduction techniques.Moreover, the study explores the potential underlying mechanisms responsible for the observed improvements in wellbeing. These may include physiological changes, such as reduced heart rate and cortisol levels, as well as psychological factors related to mindfulness, self-awareness, and improved coping skills.The findings of this study have significant implications for mental health practitioners, educators, and individuals seeking effective strategies to manage anxiety and enhance overall wellbeing. By establishing the benefits of relaxation training and yoga, this research may encourage their incorporation into mental health interventions, stress management programs, and wellness initiatives.Furthermore, understanding the impact of relaxation and yoga practices on anxiety and wellbeing may also foster a holistic approach to healthcare, emphasizing the importance of mind-body interventions for mental and emotional health.In conclusion, this research endeavors to shed light on the effectiveness of relaxation training and yoga in reducing anxiety and promoting wellbeing. By providing empirical evidence of their benefits, this study aims to contribute to the growing body of knowledge surrounding holistic approaches to mental health and wellbeing.

  • av Deewan Prateek
    367,-

    Provides insights into cutting-edge techniques developed to evaluate the quality of context-specific content on various social media platforms. In the ever-evolving digital landscape, where an abundance of content is generated and shared online, ensuring the accuracy and appropriateness of information is of paramount importance.This research focuses on addressing the challenges posed by the vast amounts of user-generated content on social media services. By utilizing advanced automation techniques and artificial intelligence, the study aims to develop robust algorithms capable of assessing the quality and relevance of content within specific contexts.The research team implements sophisticated natural language processing (NLP) and machine learning methodologies to analyze textual, visual, and multimedia content on social media platforms. These algorithms can determine the credibility, accuracy, and sentiment of posts and comments, allowing for context-specific evaluations that consider the unique nature of each piece of content.The findings of this study are pivotal for social media companies, content moderators, and digital platforms seeking to enhance content curation and ensure a safer and more reliable user experience. The automated quality assessment can help identify and flag potentially harmful or misleading content, protecting users from misinformation, hate speech, and other undesirable content.Moreover, this research contributes to the broader efforts in the field of AI-driven content analysis and content moderation, pushing the boundaries of technology to create more efficient and effective approaches to ensure content quality on social media services.By automating the quality assessment process, social media platforms can better prioritize valuable and trustworthy content while minimizing the dissemination of false or harmful information. Ultimately, this study aims to foster a healthier and more productive online environment for users, promoting responsible content creation and consumption in the digital era.

  • av Deepika Sharma
    391,-

    The Psychometric for Gymnastics Sports Intelligence is a comprehensive assessment tool designed to evaluate the cognitive abilities and mental aptitude of gymnasts. This battery of tests is specifically tailored to measure various aspects of sports intelligence that are essential for excelling in the sport of gymnastics.Gymnastics requires a unique combination of physical prowess, technical skill, and mental acuity. Athletes must possess not only exceptional physical abilities but also the capacity to strategize, adapt, and make split-second decisions during routines and competitions. The psychometric paradigm applied in this test battery aims to uncover and quantify the mental attributes that contribute to an athlete's success in gymnastics.The battery includes a series of standardized tests that cover different cognitive domains, such as memory, attention, spatial reasoning, problem-solving, and decision-making. These tests are meticulously designed to ensure accuracy, reliability, and validity in assessing an individual's sports intelligence specifically within the context of gymnastics.By utilizing the Psychometric for Gymnastics Sports Intelligence coaches, sports psychologists, and talent scouts can gain valuable insights into an athlete's cognitive strengths and weaknesses. The results obtained from this assessment can aid in talent identification, training program development, and personalized coaching strategies to optimize an athlete's performance and potential in the field of gymnastics.Overall, this psychometric test battery represents an innovative approach to better understand the mental aspects that contribute to excellence in gymnastics, offering a data-driven approach to nurture and cultivate the next generation of gymnastic champions

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