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🌱 Light Intensity Drives Species-Specific Growth and Phytochemical Accumulation in Microgreens

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 Microgreens are young, nutrient-dense edible seedlings valued for their rapid growth and high phytochemical content πŸ₯¬✨. Among environmental factors, light intensity plays a decisive role in modulating growth rate, morphology, and secondary metabolite synthesis. Different microgreen species respond uniquely to light exposure, making illumination a key driver of species-specific physiological outcomes. 🌿 Species-Specific Growth Responses πŸ“ Morphological Development Light intensity directly influences plant height, leaf expansion, and biomass accumulation. Low light often promotes elongated hypocotyls as plants stretch toward illumination, while optimal light enhances compact growth and sturdy cotyledons 🌱. However, excessive light may induce stress responses, reducing growth efficiency in shade-tolerant species. ⚖️ Biomass and Yield Variability Fast-growing species such as radish and mustard exhibit higher fresh weight under moderate-to-high light intensities, whereas delic...
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🦡✨ The Effectiveness and Safety of a New Nutraceutical in Patients with Knee Osteoarthritis: A Pilot Study

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  🌿 Introduction to Knee Osteoarthritis Knee osteoarthritis (KOA) is a progressive degenerative joint disorder characterized by cartilage breakdown, joint stiffness, pain, and reduced mobility 🦴. It commonly affects older adults and significantly impacts daily activities and quality of life. Conventional treatments, such as analgesics and non-steroidal anti-inflammatory drugs (NSAIDs), often provide temporary relief but may be associated with adverse effects when used long-term ⚠️. This has led to growing interest in safer, natural alternatives like nutraceuticals 🌱. πŸ’Š Role of Nutraceuticals in Joint Health Nutraceuticals are bioactive compounds derived from food sources that offer health benefits beyond basic nutrition πŸƒ. In osteoarthritis management, nutraceuticals are believed to support cartilage health, reduce inflammation, and improve joint function. Their natural origin and favorable safety profile make them appealing as complementary or alternative therapies for chr...
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🧠 Sensorized Vascular High-Fidelity Physical Simulator for Robot-Assisted Surgery Training

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 Robot-assisted vascular surgery demands exceptional precision, tactile awareness, and decision-making under pressure. Traditional training methods often fall short in replicating real vascular behavior. The Sensorized Vascular High-Fidelity Physical Simulator bridges this gap by offering a realistic, data-driven, and immersive training environment πŸ€–πŸ©Έ. This multisite pilot evaluation explores its effectiveness across diverse surgical training centers. 🧩 Core Design & Technology πŸ› ️ High-Fidelity Physical Modeling The simulator replicates human vascular anatomy using advanced biomimetic materials that closely resemble vessel elasticity, resistance, and deformation. This realism enhances hands-on surgical experience and muscle memory development. πŸ“‘ Integrated Sensorization Embedded pressure, flow, and force sensors continuously capture surgeon-instrument interactions. These sensors provide real-time feedback, enabling precise assessment of applied forces and procedural accur...
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πŸ† Best Faculty Award – A Celebration of Teaching Excellence 🌟

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 The Best Faculty Award is a prestigious recognition that honors educators who inspire, innovate, and transform the learning journey of students. πŸŽ“✨ This award highlights the extraordinary contribution of faculty members who go beyond traditional teaching methods to create meaningful academic and personal growth opportunities. πŸ“Œ Topic 1: Outstanding Teaching Performance πŸ‘©‍πŸ«πŸ“š A best faculty member demonstrates exceptional teaching skills through: Interactive classroom engagement πŸ—£️ Clear conceptual delivery πŸ’‘ Student-centered learning approaches 🀝 Consistent academic excellence πŸ“ˆ Such educators make complex subjects easy, enjoyable, and memorable. πŸ“Œ Topic 2: Innovative Pedagogical Practices πŸš€πŸ§  Modern education thrives on creativity. Award-winning faculty introduce: Digital learning tools & smart teaching πŸ’» Project-based learning models πŸ› ️ Research-driven instruction πŸ” Collaborative teaching strategies 🌍 Innovation ensures studen...
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πŸš—✨ Nonlinear Disturbance Observer-Based Adaptive Anti-Lock Braking Control of Electro-Hydraulic Brake Systems with Unknown Tire–Road-Friction Coefficient

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Modern vehicles demand high safety, stability, and intelligent braking performance , especially under unpredictable road conditions. 🌧️πŸ›£️ One of the most critical challenges in automotive control is achieving reliable Anti-Lock Braking System (ABS) operation when the tire–road friction coefficient is unknown or rapidly changing . This research focuses on an advanced solution: a Nonlinear Disturbance Observer-Based Adaptive ABS Control strategy for Electro-Hydraulic Brake (EHB) systems. ⚙️🚘 🌟 Key Concept Overview πŸ”Ή Electro-Hydraulic Brake Systems (EHB) Electro-hydraulic braking combines electronic control with hydraulic actuation, offering faster response and improved braking precision. πŸ› ️⚡ However, nonlinear dynamics and uncertainties make control design complex. πŸŒ€ Core Research Topics & Subtopics 1️⃣ Nonlinear System Modeling πŸ“‰ Representation of nonlinear brake actuator dynamics Tire slip ratio behavior under braking Coupled wheel–vehicle motion equations ...
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🌍⚡ Energy, Exergy, and Environmental Analysis of Organic Rankine Cycle (ORC) Systems for Industrial Waste Heat Recovery

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 Industrial sectors such as steel, cement, chemical processing, and power plants release a massive amount of waste heat into the environment. Instead of letting this valuable energy vanish, Organic Rankine Cycle (ORC) systems provide an innovative pathway to convert low-to-medium temperature waste heat into useful electricity πŸŒ±πŸ”‹. This approach supports energy efficiency, sustainability, and greener industrial development. πŸ”₯ 1. Energy Analysis of ORC Systems Energy analysis focuses on how effectively waste heat is transformed into mechanical power and electricity. πŸ“Œ Key Subtopics: Heat source characterization in industries Working fluid selection (eco-friendly refrigerants) Thermal efficiency improvement techniques Performance evaluation under varying temperatures Energy-based studies highlight the potential of ORC in maximizing recovered power output ⚙️✨. ♻️ 2. Exergy Analysis for System Optimization Unlike energy analysis, exergy analysis measures the quality ...
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πŸ”‹ A Data-Driven Framework for Electric Vehicle Charging Infrastructure Planning

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  The rapid adoption of electric vehicles (EVs) is transforming global transportation systems. However, the success of this transition depends heavily on well-planned charging infrastructure. A data-driven framework offers a smart, evidence-based approach to designing EV charging networks that align with real-world demand, financial sustainability, and social fairness ⚡πŸ“ˆ. By integrating analytics, spatial modeling, and economic insights, planners can ensure efficient, inclusive, and future-ready charging solutions. πŸ“Š Demand Estimation: Understanding Where and When Charging Is Needed Accurate demand estimation lies at the heart of effective EV infrastructure planning. Using data from traffic flows, vehicle ownership patterns, travel behavior, and charging usage logs , planners can forecast charging needs across time and space πŸš˜πŸ“. Advanced techniques such as machine learning models, time-series forecasting, and mobility data analysis help identify peak demand hours, high-us...
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