Published: Dec. 19, 2024
Language: Английский
Computer Science & IT Research Journal, Journal Year: 2024, Volume and Issue: 5(8), P. 2062 - 2082
Published: Aug. 31, 2024
Cloud computing has fundamentally transformed the landscape of software deployment and management, offering significant benefits reshaping traditional approaches. This review explores transformative impact cloud on these domains, highlighting key changes advantages. Firstly, revolutionized by introducing scalable flexible infrastructure solutions. Unlike onpremises systems that require upfront investment ongoing maintenance, platforms offer ondemand resources payasyougo models. shift enables organizations to deploy rapidly, adapt changing needs, scale efficiently without constraints physical hardware. Additionally, enhances management through centralized control automation. environments provide integrated tools streamline deployment, monitoring, maintenance applications. These facilitate automated updates, patch system backups, reducing burden IT teams minimizing downtime. Furthermore, cloudbased realtime visibility analytics, allowing for proactive performance monitoring troubleshooting. The collaborative nature also fosters improved development practices. support DevOps methodologies enabling continuous integration delivery (CI/CD) pipelines. accelerates cycles, collaboration among distributed teams, ensures consistent reliable deployments. Moreover, cloud's global reach accessibility break down geographical barriers, across multiple regions effortlessly. geographic flexibility user experience high availability performance, regardless user's location. Despite advancements, transition presents challenges, including data security compliance concerns. Organizations must implement robust measures adhere regulatory requirements protect sensitive information maintain trust. In conclusion, had a profound scalable, flexible, efficient Its effects include streamlined operations, collaboration, accessibility. As technology continues evolve, navigate associated challenges while leveraging its drive innovation efficiency in management. Keywords: Management, Impact, Computing, Software Deployment, Assessing
Language: Английский
Citations
4
International Journal of Applied Research in Social Sciences, Journal Year: 2024, Volume and Issue: 6(8), P. 1848 - 1867
Published: Aug. 21, 2024
The rapid advancement of technology has led to an explosion big data, which presents a wealth opportunities for informing strategic decision-making in software development. This review explores how leveraging data can transform the development process by enhancing at various stages. Big analytics provides insights into user behavior, preferences, and trends, enabling developers create more user-centric products. By analyzing large datasets, identify patterns predict future needs, ensuring that solutions are not only relevant but also innovative. In planning phase, helps understanding market demands competition, allowing better resource allocation project prioritization. During development, real-time guide optimization code, enhance performance testing, improve quality assurance processes. Post-deployment, facilitates continuous improvement through detailed analysis feedback usage patterns, leading timely updates feature enhancements. Furthermore, plays crucial role risk management identifying potential issues before they escalate, thus mitigating failures. Predictive analytics, powered forecast challenges provide actionable address them proactively. reduces downtime enhances reliability Strategic benefits from integration with artificial intelligence machine learning algorithms. These technologies automate repetitive tasks, intelligent recommendations, personalize experiences, making efficient effective. However, comes challenges, such as privacy security, managing sheer volume maintaining quality. Addressing these requires robust governance frameworks adherence ethical standards. conclusion, processes holds significant promise. It empowers efficient, reliable, solutions, ultimately driving innovation competitive advantage rapidly evolving tech landscape. evolution tools techniques will further their impact on Keywords: Leveraging, Data, Decision making, Software Development, Inform.
Language: Английский
Citations
3
Engineering Science & Technology Journal, Journal Year: 2024, Volume and Issue: 5(8), P. 2649 - 2669
Published: Aug. 31, 2024
The increasing demand for energy efficiency and sustainability in the industrial sector has spurred development of innovative software solutions effective management systems (EMS). This review explores key advancements applications these enhancing practices. Modern EMS leverages cutting-edge technologies such as artificial intelligence (AI), machine learning, Internet Things (IoT) to optimize consumption, reduce operational costs, minimize environmental impact. By integrating real-time data from various sensors devices, provide comprehensive insights into usage patterns, enabling industries identify inefficiencies implement corrective measures promptly. AI-driven predictive analytics play a crucial role forecasting optimizing distribution across processes. Machine learning algorithms analyze historical predict peak periods, allowing proactive load reducing risk wastage. Additionally, IoT-enabled devices facilitate seamless communication between different components infrastructure, ensuring accurate collection monitoring. One significant innovation is user-friendly interfaces dashboards that present complex an accessible format. These enable facility managers operators make informed decisions quickly, their ability manage consumption efficiently. Moreover, advanced offer automated control features adjust dynamically based on predefined parameters conditions, further streamlining Case studies industries, manufacturing, logistics, centers, demonstrate tangible benefits implementing software. include reductions improved regulatory compliance, enhanced performance. For instance, manufacturing plant utilizing AI-powered reported 15% decrease within first year implementation, highlighting potential substantial savings. In conclusion, developing aiming achieve goals. harnessing power AI, IoT, actionable insights, automate control, promote sustainable Continued research this field will enhance capabilities software, driving progress toward more energy-efficient sector. Keywords: Industry, Software Solutions, Innovative, Effective, Energy Management System.
Language: Английский
Citations
2
International Medical Science Research Journal, Journal Year: 2024, Volume and Issue: 4(8), P. 806 - 833
Published: Aug. 23, 2024
Artificial intelligence (AI) is transforming personalized medicine by enhancing drug efficacy and reducing adverse effects, promising a new era of precision healthcare. This paper explores the role AI in revolutionizing therapies tailoring treatments to individual patient profiles, thereby optimizing therapeutic outcomes minimizing risks. leverages vast amounts medical data, including genetic information, electronic health records (EHRs), real-time monitoring create comprehensive profiles. Machine learning algorithms analyze these profiles identify patterns correlations that might not be apparent human practitioners. enables development treatment plans consider patient's unique makeup, lifestyle, existing conditions. One critical applications pharmacogenomics, which studies how genes affect person’s response drugs. can variations influence metabolism, efficacy, toxicity, allowing healthcare providers predict medications dosages will most effective for patients. reduces trial-and-error approach traditionally used prescribing medications, incidence reactions (ADRs). also plays significant repurposing development. By analyzing data outcomes, uses potential side effects before clinical trials, accelerating process costs. Moreover, AI-driven predictive analytics continuously monitor responses treatment, adjusting maintain optimal levels. particularly beneficial managing chronic conditions such as diabetes, hypertension, cancer, where maintaining correct dosage crucial disease management. Despite its promise, integration faces challenges, privacy concerns, need robust regulatory frameworks, ensuring equitable access innovations. Addressing challenges requires collaborative efforts from providers, researchers, policymakers, technology developers. In conclusion, at forefront medicine, Continued advancements technologies supportive policies realizing full ultimately leading more safer solutions. Keywords: AI, Drug Efficacy, Personalized Medicine, Enhancing, Reducing Adverse Effect.
Language: Английский
Citations
1
International Journal of Applied Research in Social Sciences, Journal Year: 2024, Volume and Issue: 6(8), P. 1797 - 1823
Published: Aug. 21, 2024
Artificial intelligence (AI) and big data analytics have emerged as powerful tools in enhancing public health surveillance, particularly rural communities where traditional monitoring methods face significant challenges. These technologies offer the potential to transform how is collected, analyzed, utilized, enabling more effective timely responses threats. Rural often struggle with limited healthcare infrastructure, making it difficult monitor respond issues effectively. AI can bridge this gap by providing advanced capabilities for real-time collection analysis. algorithms process vast amounts of from various sources, including electronic records, mobile applications, social media, environmental sensors. This enables identification patterns trends that may indicate emerging threats, such outbreaks infectious diseases or increases chronic conditions. Big allows integration analysis diverse datasets, a comprehensive view areas. holistic approach officials identify high-risk populations, track spread diseases, evaluate effectiveness interventions. For instance, AI-powered predictive models forecast disease based on historical current trends, allowing proactive measures mitigate impact. Moreover, these enhance accuracy efficiency surveillance. automate processing tasks, reducing time resources required manual authorities quickly improving overall outcomes communities. Additionally, aid identifying correlations between factors issues, insights inform policies Despite benefits, implementing surveillance faces several Data privacy security concerns must be addressed ensure confidentiality information. Furthermore, areas lack technological infrastructure expertise needed fully leverage technologies. Overcoming challenges requires investment training professionals, development user-friendly applications tailored needs In conclusion, hold promise By leveraging technologies, improve detection, monitoring, response ultimately leading better populations. Keywords: AI, Analytics, Public Health, Surveillance, Communities.
Language: Английский
Citations
1
International Medical Science Research Journal, Journal Year: 2024, Volume and Issue: 4(8), P. 834 - 858
Published: Aug. 23, 2024
Antimicrobial resistance (AMR) poses a significant threat to global health, complicating the treatment of infectious diseases and leading increased morbidity mortality. Innovative drug delivery methods are emerging as critical strategies combat AMR by enhancing efficacy existing antibiotics facilitating development new therapeutic approaches. This paper explores role novel systems in addressing challenges. One primary approaches is targeted that improve precision antibiotic therapy. Nanotechnology has revolutionized this field, enabling creation nanoparticles nanocarriers can deliver drugs directly infection sites, reducing systemic side effects concentration at target. These advanced be engineered release controlled manner, overcoming bacterial mechanisms minimizing likelihood development. Another promising strategy involves use combination therapies delivered through innovative methods. By combining with adjuvants or resistance-modifying agents, these counteract restore effectiveness drugs. For instance, platforms co-deliver inhibitors efflux pumps biofilm formation enhance resistant infections. The integration smart systems, which respond environmental stimuli such pH changes specific enzymes, offers additional advantages. only presence bacteria, thereby overall exposure bacteria decreasing risk resistance. also include long-acting formulations implants provide sustained over extended periods. Such reduce frequency dosing, patient adherence, ensure consistent levels, crucial for managing chronic infections preventing In conclusion, pivotal fight against AMR. targeting, therapies, utilizing sustained-release offer solutions curb Continued research area essential advancing ensuring effective management face rising antimicrobial Keywords: Innovative, Drug Delivery Methods, Combating, Antimicrobial, Resistance.
Language: Английский
Citations
0
International Journal of Applied Research in Social Sciences, Journal Year: 2024, Volume and Issue: 6(8), P. 1824 - 1847
Published: Aug. 21, 2024
The integration of artificial intelligence (AI) in healthcare has revolutionized chronic disease management, particularly rural areas where access to medical services is often limited. AI-enhanced remote monitoring systems leverage advanced machine learning algorithms, wearable devices, and telehealth platforms provide continuous, real-time health for patients with conditions such as diabetes, hypertension, cardiovascular diseases. AI algorithms analyze data from which track vital signs like heart rate, blood pressure, glucose levels, physical activity. This continuous stream allows early detection potential issues, enabling timely interventions reducing the need frequent hospital visits. For instance, can predict a hypertensive crisis by identifying abnormal patterns pressure readings, prompting immediate attention. Telehealth facilitate communication between providers, overcoming geographical barriers. Patients receive personalized care plans, medication adjustments, lifestyle recommendations through virtual consultations. AI-driven chatbots assistants enhance patient engagement providing instant responses health-related queries, thus improving adherence treatment regimens. Moreover, enhances analytics integrating electronic records (EHR) data, creating comprehensive profiles. These profiles assist providers making informed decisions personalizing plans. Predictive identify high-risk forecast progression, proactive management strategies. implementation also addresses resource constraints settings. Automated collection analysis reduce workload professionals, allowing them focus on critical tasks. Furthermore, AI's scalability ensures that even underserved communities benefit technologies. Despite these advancements, challenges privacy, cybersecurity, reliable internet connectivity must be addressed. Ensuring security confidentiality paramount gaining trust widespread adoption technologies healthcare. In conclusion, presents transformative approach areas, outcomes, enhancing accessibility, optimizing utilization. Continued innovation investment are essential bridging gap urban populations. Keywords: AI-Enhanced, Remote Monitoring, Chronic Disease, Management, Rural Areas.
Language: Английский
Citations
0
Computer Science & IT Research Journal, Journal Year: 2024, Volume and Issue: 5(8), P. 1828 - 1854
Published: Aug. 23, 2024
The integration of artificial intelligence (AI) in healthcare has the potential to revolutionize early diagnosis chronic diseases, particularly rural areas where resources are often limited. This paper explores transformative impact AI technologies on identifying diseases at their earliest stages, enhancing patient outcomes, and alleviating burden systems. AI's ability analyze vast amounts data rapidly accurately enables detection such as diabetes, hypertension, cardiovascular conditions. Machine learning algorithms can process from various sources, including electronic health records (EHRs), wearable devices, diagnostic imaging, identify patterns biomarkers indicative disease onset. predictive capability allows providers intervene sooner, potentially preventing progression reducing long-term costs. In areas, access specialized medical expertise advanced tools is constrained, AI-driven offer a significant advantage. Telemedicine platforms integrated with facilitate remote consultations, assists interpreting providing suggestions. approach not only expands quality but also empowers local decision-support tools, improving accuracy management. Moreover, help mitigate challenges limited personnel regions by automating routine tasks enabling workers focus more complex cases. For instance, AI-powered imaging analysis quickly screen large populations for signs flagging suspicious cases further review professionals. deployment settings fosters continuous monitoring personalized care through connected devices. These devices collect real-time data, which systems provide actionable insights alerts both patients providers. proactive ensures timely interventions enhances adherence treatment plans. conclusion, into significantly improves offering scalable solution address disparities outcomes between urban populations. Continued investment infrastructure, along targeted training providers, essential realize full transforming life millions. Keywords: AI, Impact, Early Diagnostic, Chronic Disease, Rural Areas.
Language: Английский
Citations
0
International Journal of Applied Research in Social Sciences, Journal Year: 2024, Volume and Issue: 6(8), P. 1725 - 1746
Published: Aug. 21, 2024
Mobile health (mHealth) applications offer a transformative approach to disease management, particularly in rural areas where healthcare resources are often limited. This systematic review explores the role of mHealth enhancing management settings, focusing on their effectiveness, challenges, and potential benefits. The systematically assesses literature designed for areas, highlighting key findings from various studies. reveals that can significantly improve access services, enable remote monitoring, facilitate timely interventions. These include features such as symptom tracking, medication reminders, education, telemedicine capabilities, which collectively enhance patient outcomes. For instance, apps chronic diabetes hypertension, tools self-monitoring personalized feedback, thereby improving adherence treatment regimens fostering better control. However, also identifies several challenges associated with implementation areas. Key issues limited internet access, variability digital literacy, concerns about data privacy security. effectiveness is constrained by these factors, need tailored solutions address unique needs populations. Despite underscores bridge gaps delivery By providing scalable accessible solutions, have outcomes underserved regions. Future research should focus developing context-specific barriers identified exploring strategies effective integration into existing systems. Overall, represent promising avenue advancing impact public health. Keywords: Rural Areas, Systematic, Disease, Management, Health Application.
Language: Английский
Citations
0
Computer Science & IT Research Journal, Journal Year: 2024, Volume and Issue: 5(8), P. 2040 - 2061
Published: Aug. 31, 2024
In an increasingly interconnected world, the need for software applications that function seamlessly across diverse devices and operating systems is paramount. Developing crossplatform addresses this by providing a unified user experience operational efficiency regardless of hardware or system being used. This approach eliminates multiple versions same application, streamlining development reducing costs while improving accessibility consistency. Crossplatform involves creating compatible with various such as Windows, macOS, iOS, Android, well different device types including desktops, tablets, smartphones. Key methodologies in domain include use frameworks tools React Native, Flutter, Xamarin, which allow developers to write code once deploy it platforms. These offer range features enhance interfaces, manage resources efficiently, ensure robust performance devices. The benefits are manifold. They provide consistent experience, application behaves similarly devices, enhancing usability customer satisfaction. Additionally, they simplify maintenance updates, changes only be implemented rather than codebases. also accelerates timetomarket leveraging shared codebases, thereby enabling faster cycles quicker deployment. However, developing presents challenges. Ensuring functionality can complex, requiring careful design testing. Developers must navigate varying capabilities interface guidelines Despite these challenges, advances continue improve effectiveness solutions. conclusion, represents strategic compatibility systems. By modern tools, organizations deliver cohesive, highquality meet needs base optimizing costs. Keywords: : Developing, CrossPlatform, Software Applications, Compatibility, Devices.
Language: Английский
Citations
0