1-7. I am currently managing seven projects in the fields of artificial intelligence, machine learning, and the Internet of Things within my organization. Due to industrial confidentiality agreements, specific project titles cannot be disclosed. 

8. Development of an ERP System at SVSU
An ERP (Enterprise Resource Planning) system was developed to integrate various software modules, creating a unified platform that centralizes data and processes across the organization. For the university, the ERP covers student information, academic records, course management, and human resources. This system provides students with easy access to academic details, class schedules, and financial information, while streamlining payroll, attendance tracking, and recruitment for employees. The result is optimized resource allocation, improved communication, and simplified administrative tasks for all stakeholders.

9. Development of Hospital Information System
A comprehensive Hospital Management System was formulated to streamline administrative and clinical processes within healthcare facilities. The system centralizes patient records, appointment scheduling, billing, and inventory management. Patients benefit from seamless appointment bookings and access to medical history, while doctors gain efficient patient data management. Students receive practical exposure to real-world healthcare operations, and employees enjoy streamlined payroll and staff management. The system enhances resource allocation, communication, and overall patient care.

10. Fabrication of Aerodynamic Air Filter with UVGI Sanitizing Technology
This project engineered a cutting-edge air purification system that combines efficient airflow design with powerful UVGI technology. The system combats airborne pathogens, improves indoor air quality, and reduces disease transmission risk, especially in crowded and healthcare settings. The innovation safeguards public health and advances air filtration technology for a safer, healthier society.

11. Fabrication of Innovative Air Purifier
An innovative air purifier was developed using advanced filtration technologies, including HEPA filters and activated carbon, integrated with intelligent sensor systems. The purifier efficiently removes allergens, pollutants, and contaminants from indoor environments, reducing respiratory illnesses and improving overall well-being. The project contributes to public health and promotes a sustainable, healthier living environment.

12. Fabrication of Treadmill with Juicer
This project designed a treadmill with an integrated juicer to encourage healthy lifestyles. The innovation allows users to engage in cardiovascular exercise while preparing fresh juices, promoting physical activity and nutritious beverage consumption. The multifunctional approach addresses sedentary behavior, obesity, and inadequate fruit and vegetable intake, supporting overall wellness.

13.  Fabrication of Automatic Tank Cleaner
An automatic tank cleaner was developed to provide an efficient and eco-friendly solution for cleaning and maintaining various tanks used in water storage, industry, and agriculture. The technology automates cleaning tasks, minimizes resource wastage, and reduces environmental impact. It ensures safe water supplies, prevents contamination, and enhances operational efficiency for industries and communities.

14. Multipurpose Drone
A multipurpose drone is being developed to revolutionize healthcare delivery and research during pandemics. The drone enables swift and accurate medical supply deliveries to remote or disaster-stricken areas, supports health data collection, and facilitates epidemiological studies and environmental monitoring. It also serves as a training platform for healthcare professionals in emergency response scenarios.

14. Human Following Robot
An autonomous and intelligent robotic system was developed to track and follow a human user in dynamic environments. Utilizing sensors, computer vision, and machine learning, the robot maintains a safe distance and provides hands-free assistance. It aids individuals with limited mobility, carries items, and offers real-time information, bridging the gap between robotics and everyday life.

16. Prototype for Three-Phase Fault Detection in Power Systems
A prototype was designed to enhance the reliability and safety of electrical grids by quickly identifying and locating faults such as short circuits. The system employs microcontroller-based technology with current and voltage sensors to monitor phases continuously. Upon fault detection, it triggers alarms and communicates via a communication module, minimizing downtime and strengthening the power infrastructure.

17. Prototype for Electricity Generation Using Traffic
This prototype aims to generate electricity by harnessing the kinetic energy from vehicular movement. The innovation reduces urban energy demand, curbs carbon emissions, and promotes environmental sustainability. It serves as an educational tool for renewable energy concepts and inspires broader adoption of green technologies.

18. Portable Charging System
A portable charging system is being developed to provide accessible power solutions for urban and remote areas. The system supports technological needs, enhances communication, education, and socio-economic development, and can power medical devices for telehealth and data collection. It integrates renewable energy sources, efficient storage, and user-friendly interfaces for diverse communities.

19. Visitor’s Vehicle Movement Tracker in University Campus Using IoT and ML
A system was developed to enhance campus security and optimize parking management by monitoring and analyzing vehicle movements. The system uses IoT sensors and machine learning algorithms for real-time insights, streamlines campus navigation, and fosters a secure and visitor-friendly environment.

20. Student Tracking System Using Face Recognition Based on Machine Learning
This system streamlines attendance recording and enhances campus security through automated face recognition. It accurately identifies individuals, prevents unauthorized access, and facilitates real-time monitoring of student movement, contributing to a more efficient and secure educational environment.

21. Data Hiding Tool for Secure Data Communication Using PVD
A tool was developed to ensure confidential information exchange and enhance data privacy by embedding sensitive data within cover images using the Pixel-Value Differencing (PVD) technique. The tool prevents eavesdropping and data breaches, strengthening overall data protection.

22. Smart Store Wardrobe System Based on IoT
A Smart Store Wardrobe System was developed to revolutionize retail experiences and enhance inventory management. The system offers real-time clothing suggestions, tracks inventory trends, automates stock replenishment, and enables virtual try-ons, improving customer satisfaction and sustainability.

23. Body Monitoring System Using IoT
A cutting-edge solution was developed using wearable sensors and IoT technology to track and analyze physiological data in real-time. The system provides health insights, detects anomalies, and supports remote monitoring by healthcare professionals.

24. Sensor-Based Drip Irrigation

Sensor-based Drip Irrigation is an intelligent agricultural solution designed to optimize water usage and enhance crop productivity. By integrating soil moisture sensors with a drip irrigation setup, the system continuously monitors real-time soil conditions and automatically activates irrigation only when necessary. This ensures that plants receive the precise amount of water they require, minimizing wastage and preventing overwatering or underwatering. The technology not only conserves valuable water resources but also reduces labor costs and improves crop health by maintaining ideal soil moisture levels. It is particularly beneficial in regions facing water scarcity and for farmers seeking efficient, sustainable farming practices.

25. Automatic Room Light Controller with Bidirectional Visitor Counter

The Automatic Room Light Controller with Bidirectional Visitor Counter is a smart, energy-saving system that automates lighting based on human presence within a room. The project uses infrared sensors to detect the entry and exit of individuals, incrementing or decrementing a visitor count accordingly. The lights are automatically switched on when someone enters and turned off when the room is empty, ensuring efficient energy use and eliminating unnecessary electricity consumption. The current count of occupants is displayed on an LCD panel outside the room, providing real-time information to users. This system is ideal for classrooms, conference halls, and offices, where it helps reduce energy bills and enhances convenience by eliminating the need for manual light switching

26. Alcohol Detector Device for Drunk Drivers 

The Alcohol Detector Device for Drunk Drivers is an advanced safety system designed to prevent intoxicated individuals from operating vehicles, thereby reducing the risk of accidents and fatalities caused by drunk driving. The device typically uses high-precision sensors, such as electrochemical fuel cell-type alcohol sensors or infrared spectroscopy, to measure the alcohol concentration in the driver’s breath or through the skin’s surface123. When the detected alcohol level exceeds a predefined legal threshold, the system immediately intervenes by locking the vehicle’s engine or preventing it from starting, ensuring that the vehicle cannot be operated while the driver is under the influence345. Additionally, some systems integrate biometric authentication to confirm the driver’s identity and prevent tampering, while others may send real-time alerts or location information to designated contacts or authorities345. This technology is engineered to be fast, accurate, reliable, and easy to integrate into various vehicle types, making it a vital tool for enhancing road safety and protecting lives.

27. Developing Skill Inventory to Assess the Level of Critical Skills in UG & PG Students

Developing a Skill Inventory to assess the level of critical skills in undergraduate and postgraduate students is an essential initiative aimed at systematically evaluating and enhancing competencies that are vital for academic and professional success. This project involves the creation of a comprehensive assessment tool that measures a range of critical skills, such as problem-solving, critical thinking, communication, teamwork, and adaptability. By administering this inventory, educators gain valuable insights into students’ strengths and areas needing improvement, enabling targeted interventions and curriculum enhancements. The approach fosters a more holistic educational experience, ensuring that students are not only knowledgeable in their fields but also equipped with the transferable skills demanded by today’s dynamic and competitive job markets. Regular assessment using this inventory supports continuous improvement and helps institutions align their teaching strategies with evolving industry and societal needs.

28. E-Avedan: 

E-Aavedan is an innovative online platform designed to streamline and automate the management of student leave applications within educational institutions. By replacing traditional paper-based processes, E-Aavedan enables students to submit leave requests digitally, while faculty and administrative staff can review, approve, or reject these applications in real time from any location. The system provides transparent tracking of leave status, automated notifications, and secure record-keeping, significantly reducing administrative workload and enhancing efficiency and accessibility for both students and staff 

29. IoT-Based One Solution Device for Merchant Payment
We developed an IoT-based payment solution designed to streamline transactions for merchants, vendors, and small businesses. This device integrates components like the ESP32 microcontroller, SIM800L GSM module, and LCD to provide real-time notifications for UPI payments. When a payment is received, the system triggers an audible alert and generates a digital receipt stored securely in an S3 bucket. An optional SMS feature sends receipts directly to customers upon request, enhancing convenience. By automating payment confirmation and record-keeping, the device reduces manual errors and improves operational efficiency for merchants, particularly in high-traffic environments like markets or food stalls. Its modular design ensures scalability, making it adaptable to diverse business needs while maintaining cost-effectiveness 1.

30. Design and Development of New Mobility Model for Wireless Sensor Networks Using Nature-Inspired Algorithms
I managed the creation of a novel mobility model for Wireless Sensor Networks (WSNs) that leverages nature-inspired optimization techniques to address energy efficiency and network longevity. Drawing from algorithms like Lion Optimization (LO) and Moth-Flame Optimization (MFO), this model dynamically adjusts sensor node movement and cluster head selection based on residual energy and data transmission demands. By mimicking natural behaviors, the system minimizes energy depletion caused by congestion and overloading, extending network lifespan by up to 30% compared to traditional methods. The approach integrates Bat Algorithm principles to identify optimal routing paths, reducing transmission delays and balancing energy consumption across nodes. This innovation is particularly impactful for applications like environmental monitoring and smart agriculture, where sustainable energy use is critical

1. Fluid Warmer Development
The development of a fluid warmer focused on upgrading patient safety and improving medical care during procedures. By creating an efficient and accurate fluid warming system, the project prevents hypothermia, maintains optimal patient body temperature, and reduces complications from temperature imbalances. This technology enhances medical outcomes, promotes faster recovery, and provides healthcare professionals with a reliable tool for consistent thermal management in critical situations.

2. Development of Hot Air Unit
A hot air unit was developed to provide controlled and effective wound healing and infection prevention. The technology promotes tissue regeneration, accelerates wound closure, and reduces infection risk by delivering targeted heat therapy. Its non-invasive approach enhances patient comfort, minimises recovery time, and improves overall wound management, contributing to advancements in healthcare solutions.

3. Video laryngoscope: I managed the successful development and implementation of our video laryngoscope project. A video laryngoscope is a medical device equipped with a camera and monitor that allows healthcare providers to visualise the airway, facilitating safer and more accurate placement of breathing tubes during intubation procedures. This achievement marks a significant milestone in our ongoing commitment to innovation and advancement in health science, reflecting our team’s dedication to improving patient care and safety. Overcoming technical and logistical challenges, this project not only enhances clinical training and student skill development but also motivates our continued pursuit of impactful research and technological solutions.

4. Development and Evaluation of Anti-Stretch Mark Poly Herbal Formulation

This project focused on formulating a polyherbal preparation aimed at preventing and treating stretch marks. I coordinated the selection and combination of herbal ingredients based on scientific literature. Formulation development, stability testing, and safety assessments were conducted under my supervision. The product was evaluated for efficacy in in vitro and ex vivo models. The project resulted in a stable, effective polyherbal formulation with promising cosmetic applications.

5. Formulation and Development of Polyherbal Antiseptic Liquid

I oversaw the development of a polyherbal antiseptic liquid for topical application. The project included selection of herbal extracts with proven antimicrobial activity. Formulation optimization and stability testing were conducted under my supervision. The product was evaluated for efficacy against common pathogens. The project resulted in a stable, effective herbal antiseptic solution.

6. Development and Evaluation of Anti-Aging Polyherbal Cream

I managed the formulation and evaluation of a polyherbal cream aimed at anti-aging effects. The project involved selecting herbs with antioxidant and skin-rejuvenating properties. Cream formulation, stability, and safety testing were conducted under my guidance. Efficacy was assessed using in vitro and ex vivo models. The project yielded a promising anti-aging polyherbal cream.

7. Development of Nutritional Herbal Flavored Beverage by Using Wheat Grass Powder, Honey and Stabilizer 

I managed the development of a nutritional herbal beverage using wheatgrass powder, honey, and stabilisers. The project focused on optimising taste, nutritional content, and shelf stability. Sensory evaluation and safety assessments were conducted under my supervision. The beverage was formulated to provide health benefits beyond basic nutrition. The project resulted in a palatable, health-promoting herbal drink.

8. Development Formulation Model and Evaluation of Poly for Psoriasis in Experimental Herbal Animal

I oversaw the formulation and evaluation of a polyherbal preparation for psoriasis in animal models. The project involved selecting herbs with anti-inflammatory and immunomodulatory properties. Formulation development and stability testing were conducted under my guidance. Efficacy was assessed using established psoriasis models. The project identified a promising polyherbal formulation for psoriasis management.

9. Preparation of Herbal Sanitizer Devoid of Alcohol and Its Evaluation
An alcohol-free herbal sanitiser was formulated using natural antimicrobial extracts. The sanitiser provides a gentle and non-drying option for hand hygiene, suitable for sensitive environments. Its effectiveness was evaluated through microbial testing and user satisfaction surveys.

10. Band-Aid Containing Gel of Phytoconstituent-Loaded Silver Nanoparticles (AgNPs) as an Antifungal Remedy
A Band-Aid with a gel containing phytoconstituent-loaded silver nanoparticles was developed for effective and localised antifungal wound care. The formulation promotes rapid healing and prevents fungal infections, offering a user-friendly and targeted solution.

11. Development and Clinical Feasibility of a Novel Device for Rehabilitation in Patients with Knee Problems
A novel rehabilitation device for knee problems was developed to provide targeted and personalized interventions. The device incorporates advanced sensor technologies and adaptive mechanisms to tailor exercises and track progress, supporting optimal recovery and improved quality of life.

12. Development of Photoprotective Phyto-Nanogel
A photoprotective phyto-nanogel was developed to safeguard the skin from harmful UV radiation and environmental stressors. The nanogel encapsulates natural phytochemicals for efficient UV protection and sustained delivery, promoting skin health.

13. Development of Antifungal Gel Using Natural Gelling Agents
An antifungal gel was formulated using natural gelling agents such as aloe vera, tea tree oil, and lavender oil. The gel provides a gentle yet powerful solution for fungal infections, supporting skin health and comfort.

14. Formulation Development and Evaluation of Transdermal Patches of Nisoldipine
Transdermal patches of Nisoldipine were developed to enable controlled drug release through the skin. The patches improve patient compliance, minimise side effects, and offer a convenient and discreet treatment option for hypertension.

15. Formulation Development and Evaluation of Niosomal Gel of an NSAID
A niosomal gel containing a nonsteroidal anti-inflammatory drug (NSAID) was developed for controlled and localised drug delivery. The gel enhances therapeutic efficacy, minimizes adverse effects, and improves patient comfort and compliance.

Setup of Facility for Plastic Waste Recycling
This initiative aims to establish a plastic waste recycling facility to reduce plastic pollution, conserve resources, lower carbon emissions, and stimulate local economies through job creation and sustainable product development. The project aligns with environmental stewardship, regulatory compliance, and the promotion of a circular economy by reintroducing recycled plastics into production cycles. It fosters community engagement, technological innovation, and a more sustainable future.

EV Charging System
An Electric Vehicle (EV) charging system was developed to advance sustainable transportation, reduce air pollution, and promote public health. The system establishes an extensive network of EV charging infrastructure, facilitating the adoption of electric vehicles and decreasing fossil fuel emissions. It contributes to cleaner air quality and improved well-being.

Prototype for Waste-to-Electricity Generation
A prototype is being developed to convert organic waste into clean electricity, reducing landfill waste and associated pollution. The system employs anaerobic digestion or gasification processes, optimizes energy recovery, and ensures safe waste handling. It promotes a healthier environment, energy self-sufficiency, and a more sustainable society.

Design of Sustainable Concrete Using Hemp Concrete
Sustainable hemp concrete was designed to advance eco-friendly construction, enhance indoor air quality, and promote affordable building solutions. The material replaces traditional concrete, reducing environmental impact and carbon emissions. It improves indoor air quality and supports sustainable construction practices.

Arsenic Removal from Groundwater
This initiative focuses on safeguarding public health by reducing arsenic levels in drinking water to safe limits. The project integrates innovative and sustainable treatment methods, such as coagulation-filtration, adsorption, or membrane processes, to provide clean and potable water for underserved communities.

Pet Bottles as Masonry

Using PET (polyethylene terephthalate) bottles as masonry units is an innovative and sustainable construction practice that addresses both environmental pollution and resource efficiency. By filling discarded plastic bottles with soil, sand, or other inert materials and stacking them with mortar, these eco-bricks serve as robust building blocks for walls and even entire structures. PET bottle masonry not only recycles plastic waste that would otherwise end up in landfills or oceans, but it also reduces the demand for traditional bricks, whose production is energy-intensive and generates significant CO₂ emissions. The resulting walls demonstrate excellent compressive strength, thermal insulation, and durability, often at a fraction of the cost of conventional construction methods. This approach is especially valuable for affordable housing projects and community-driven initiatives, making it a practical, scalable, and environmentally responsible solution for sustainable development.

Pervious Concrete or Permeable Concrete

Pervious or permeable concrete is a groundbreaking material designed to promote sustainability in urban and suburban environments. Its porous structure allows rainwater to infiltrate directly into the ground, reducing stormwater runoff, minimising flood risks, and recharging groundwater supplies. This process also helps filter out pollutants, improving water quality and supporting local ecosystems. Compared to traditional impervious surfaces, permeable concrete significantly lowers the urban heat island effect by allowing water to evaporate and cool surrounding areas. With its long lifespan, low maintenance requirements, and versatility in applications such as pavements, parking lots, and green walls, pervious concrete is a cornerstone of green infrastructure and sustainable construction practices.

Marketing Expenditure and Financial Performance: A Case Study on Britannia

This case study on Britannia Industries, conducted from March to July 2024 in association with Delhi Technological University, highlights the positive link between increased marketing expenditure and financial performance. The findings show that higher marketing investments drive sales growth, boost profitability, and strengthen brand awareness. Additionally, Britannia’s expanded marketing budget supports inventory growth, new product launches, and the development of distribution networks, all of which reinforce the company’s long-term market presence and leadership. 

Sentiment Analysis and Consumer Perception of Britannia Biscuits: A Data-Driven Approach 

This project applies sentiment analysis to consumer feedback on Britannia biscuits, using advanced text mining and natural language processing (NLP) techniques to identify key trends, sentiment polarity, and potential areas for enhancement. Visual analytics tools such as histograms, word clouds, sentiment distributions, and heatmaps reveal prevalent consumer perceptions and frequently mentioned terms. Notably, the frequency histogram highlights the 20 most common words in reviews, with “good,” “excellent,” and “tasty” dominating-underscoring Britannia’s strong brand image and consistently positive consumer sentiment, especially regarding taste and quality. The analysis, supported by cross-functional team leadership and corporate strategy formulation, demonstrates how such insights can inform ongoing product and marketing improvements. 

A Study of Option Trading Strategies Using Option Chain Analysis and Backtesting with TradingView Charts

This project explored various option trading strategies through in-depth option chain analysis and technical chart patterns using TradingView. It aimed to identify profitable setups by analyzing open interest, volume, and price movement correlations. I managed the entire project cycle—from strategy formulation and data gathering to backtesting and performance evaluation. Trading strategies were tested across multiple market conditions to assess their consistency and risk-reward profile. The findings provide practical insights for traders and investors looking to optimise their options portfolio using data-driven techniques.

1. Production and Purification of Ecozyme from Local Resources – An Organic Biocleaning Agent

This project focused on producing a sustainable, eco-friendly biocleaning agent (Ecozyme) using locally available organic waste. The aim was to promote green cleaning alternatives by isolating and purifying enzymes capable of breaking down organic pollutants. As project manager, I coordinated laboratory work, resource collection, and optimization of fermentation processes. The final product demonstrated high efficiency in surface cleaning with zero chemical residues. The project supports environmental conservation while promoting cost-effective, community-driven solutions.

2. Morpho-physiological and Biochemical Responses to Cadmium (Cd) Toxicity in Chickpea (Cicer arietinum L.) Cultivars

This study evaluated the effects of cadmium stress on different chickpea cultivars, focusing on growth parameters, biochemical markers, and tolerance mechanisms. Through detailed physiological and morphological assessments, the project identified cultivars with higher resistance to heavy metal contamination. I managed the experimental design, field trials, and data analysis phases of the project. The results provide vital insights for breeding cadmium-tolerant chickpea varieties. This research has implications for food safety and sustainable agriculture in contaminated soils.

3. Development of Low-Cost Mosquito Repellent Using Cow Dung for the Upliftment of Rural Women from Meerut District

This innovative project aimed to create a natural, affordable mosquito repellent from cow dung and herbal extracts, providing both environmental and economic benefits. Targeted especially at rural women in Meerut, it encouraged local entrepreneurship and health awareness. As project lead, I coordinated community outreach, training sessions, and product formulation trials. The product proved to be effective and easily manufacturable at the household level. This initiative empowered rural women through skill development and livelihood generation.

4. Development of RAPD Markers for Authentication of Specific Medicinal Plants of Convolvulaceae Family

This molecular biology project aimed to develop Random Amplified Polymorphic DNA (RAPD) markers for accurate identification of medicinal plants in the Convolvulaceae family. Accurate plant authentication is critical to ensure the quality and safety of herbal medicines. I managed the lab procedures including DNA extraction, marker analysis, and validation techniques. The project successfully established genetic profiles to distinguish between similar-looking but pharmacologically different species. This research contributes significantly to quality control in the herbal drug industry.

5. Dietary Formulation Using Herbal Immunostimulants and Their Effect on Heteropneustes fossilis

This aquaculture-based project focused on enhancing the immune response of Heteropneustes fossilis (a freshwater fish) using herbal dietary supplements. The goal was to improve fish health and disease resistance in a sustainable manner. I led the formulation, feeding trials, and immunological assessments. Results showed notable improvements in growth and immunity among treated groups. The study supports the integration of herbal additives in aquaculture to reduce dependency on antibiotics and chemicals.

6. Syntheses, Molecular Docking and Biological Evaluation of Pyrimidine Derivatives

I managed a project focused on the design and synthesis of novel pyrimidine derivatives for potential therapeutic applications. Molecular docking techniques were employed to predict interactions between the synthesized compounds and biological targets. The project included rigorous biological evaluation to assess efficacy and safety profiles. My role involved coordinating laboratory synthesis, computational analysis, and data interpretation. The outcomes contributed to the identification of promising lead compounds for further investigation.

7. Design, Syntheses and Biological Evaluation of Antidiabetic Agents

This project involved the rational design and synthesis of new chemical entities with antidiabetic potential. I oversaw the synthesis process and ensured adherence to safety and quality standards. Biological assays were conducted to evaluate the efficacy of these agents in relevant models. Data analysis was performed to correlate structure-activity relationships. The project resulted in the identification of several compounds with significant antidiabetic activity.

8. Method for Estimation of Three Antifungal Drugs Itraconazole, Voriconazole and Fluconazole Simultaneously

I managed a robust analytical method for the simultaneous estimation of itraconazole, voriconazole, and fluconazole in bulk formulations. Method validation was performed following regulatory guidelines. The project involved optimizing chromatographic conditions and validating the specificity, accuracy, and precision of the method. My responsibilities included overseeing laboratory work and documentation. The developed method enhanced quality control in pharmaceutical manufacturing.

9. Design Synthesis and Evaluation of 3-(4–4-Amino Phenyl)-Pyrrolidine-2-5 Dione Derivatives to Attenuate Thermal Hyperalgesia and Cold Allodynia Symptoms of Peripheral Neuropathy, in STZ-Induced Diabetic Rats

I led the design, synthesis, and biological evaluation of novel pyrrolidine dione derivatives targeting diabetic neuropathy symptoms. The project involved inducing diabetes in rats using streptozotocin and assessing pain behavior. Synthesized compounds were evaluated for their ability to reduce thermal hyperalgesia and cold allodynia. My responsibilities included experimental design, data collection, and analysis. The project identified compounds with potential for managing neuropathic pain.

10. Physiological Preconditioning During Cerebral Ischemia/Reperfusion Injury

I managed a study investigating the effects of physiological preconditioning on cerebral ischemia/reperfusion injury. The project involved designing animal models to simulate ischemic events and applying preconditioning protocols. Outcome measures included neurological function and tissue damage assessment. My role included coordinating experiments and interpreting results. The findings highlighted the protective role of preconditioning in reducing ischemic brain injury.

11. Evaluation of Wound Healing Activity of Polyherbal Formulation

I managed a study to evaluate the wound healing potential of a novel polyherbal formulation. The project involved designing and conducting animal experiments to assess wound closure rates and tissue regeneration. Histopathological and biochemical analyses were performed to understand the underlying mechanisms. Data interpretation and statistical analysis were key aspects of my role. The results demonstrated significant improvement in wound healing compared to controls.

12. Combined Effect of Beetroot, Pomegranate, and Jaggery Smoothie on Iron & Hemoglobin Levels in Anemic 

I managed a randomized controlled trial evaluating the combined effect of beetroot, pomegranate, and jaggery smoothie on iron and hemoglobin levels in anemic individuals. The project involved protocol development, participant recruitment, and blood parameter assessment. My responsibilities included data collection and statistical analysis. The results demonstrated significant improvements in iron and hemoglobin levels. The study supported the use of dietary interventions for anemia management.

13. Comparative Study of Suraya Namaskar and Chandra Namaskar on Spirometric Variables 

I managed a comparative study assessing the effects of Suraya Namaskar and Chandra Namaskar on spirometric variables in healthy individuals. The project involved protocol development, participant recruitment, and spirometry testing. My role included data collection and statistical analysis. The results provided insights into the respiratory benefits of these yoga practices. The study contributed to evidence-based recommendations for yoga in respiratory health.

14. Evaluation of Antioxidant and Sun-Protecting Potential of Wildflowers Growing in India

I managed a project evaluating the antioxidant and sun-protecting potential of wildflowers native to India. The project involved collection, extraction, and phytochemical analysis of wildflowers. Antioxidant and photoprotective assays were conducted under my supervision. Data interpretation was a key aspect of my role. The results identified several wildflowers with promising antioxidant and sun-protecting properties.

15. Development and Evaluation of Photoprotective Phytonanogel

I managed the development and evaluation of a photoprotective phytonanogel. The project involved formulation optimization and incorporation of plant-derived photoprotective agents. Stability and efficacy testing were conducted under my supervision. The product was evaluated for sun protection factor and antioxidant activity. The project resulted in a novel, effective photoprotective phytonanogel.

16. Effectiveness of Various Herbal Mouthwashes Used Among The Patients of Precancerous Lesions

I managed a study evaluating the effectiveness of various herbal mouthwashes in patients with precancerous lesions. The project involved protocol development, patient recruitment, and outcome assessment. My responsibilities included data collection and statistical analysis. The results demonstrated the efficacy of certain herbal mouthwashes. The study contributed to evidence-based oral care for precancerous conditions.

17. Correlation of CBC Parameters in Hematological Malignancies with Clinical Presentation and Treatment 

I managed a study correlating CBC parameters with clinical presentation and treatment history in patients with hematological malignancies in Western UP. The project involved patient recruitment, data collection, and statistical analysis. My responsibilities included protocol development and data interpretation. The results provided insights into disease progression and treatment response. The study contributed to improved understanding of hematological malignancies in the region.

18. Evaluation of Pharmacological Efficacy of Water Chestnut Against Diabetic Neuropathy in Animal Model

I led a study evaluating the effects of water chestnut extracts on diabetic neuropathy in animal models. The project involved inducing diabetes and administering the extract to assess neuropathic symptoms. Behavioral and biochemical analyses were performed to evaluate efficacy. My responsibilities included experimental design and data interpretation. The results suggested potential benefits of water chestnut in managing diabetic neuropathy.

19. Effect of Massage and Infra-Red Therapy on Electromyography in Patients with Knee Osteoarthritis 

I managed a clinical trial investigating the effects of massage and infra-red therapy on electromyography in knee osteoarthritis patients. The project involved recruiting participants, randomizing interventions, and collecting EMG data. My responsibilities included protocol development, data collection, and statistical analysis. The results provided insights into non-pharmacological management of osteoarthritis. The study contributed to evidence-based practice in physiotherapy.

20. Effect of Overnight Soaked Fenugreek Seeds on Glycated Hemoglobin (HBA1C) Levels in Type 2 Diabetes 

I managed a clinical trial evaluating the impact of overnight soaked fenugreek seeds on HbA1c levels in type 2 diabetes patients. The project involved patient recruitment, randomization, and follow-up. Data collection and statistical analysis were key aspects of my role. The results demonstrated a significant reduction in HbA1c levels. The study highlighted the potential of fenugreek as an adjunct therapy for diabetes.

21. Immediate Effect of Asthma Bath on Pulmonary Function Test in Asthmatic Patient

I managed a clinical trial assessing the immediate effects of asthma bath on pulmonary function in asthmatic patients. The project involved designing the protocol, recruiting participants, and conducting spirometry. My responsibilities included data collection and interpretation. The results indicated a positive impact on pulmonary function. The study contributed to non-pharmacological asthma management strategies.

22. Immediate Effect of Cold Spinal Compress & Sham Cold Spinal Compress on Heart Rate Variability 

I managed a randomized controlled trial investigating the immediate effects of cold spinal compress and sham treatment on heart rate variability in healthy volunteers. The project involved protocol development, participant recruitment, and data collection. My role included overseeing the trial and analyzing results. The findings provided insights into autonomic nervous system responses. The study supported the use of cold therapy in health promotion.

23. Effect of Thorax Manipulation on Spirometric Variables on Patients of Chronic Obstructive Pulmonary Disease 

I managed a clinical trial evaluating the effect of thorax manipulation on spirometric variables in COPD patients. The project involved protocol design, patient recruitment, and spirometry testing. My responsibilities included data collection and statistical analysis. The results demonstrated improvements in respiratory function. The study contributed to evidence-based physiotherapy for COPD.

24. Effect of Steam Bath on Spirometric Variables among Healthy Individuals – Randomized Control Trial

I managed a randomized controlled trial assessing the effect of steam bath on spirometric variables in healthy individuals. The project involved protocol development, participant recruitment, and spirometry testing. My role included data collection and statistical analysis. The results indicated positive effects on respiratory function. The study supported the use of steam bath for respiratory health.

25. Efficacy of Cold Chest Pack and Facial Steam with Eucalyptus Oil on Pulmonary Function Test in Tuberculosis 

I managed a clinical trial evaluating the efficacy of cold chest pack and facial steam with eucalyptus oil on pulmonary function in tuberculosis patients. The project involved protocol development, patient recruitment, and spirometry testing. My responsibilities included data collection and interpretation. The results demonstrated improvements in pulmonary function. The study contributed to adjunctive therapy for tuberculosis.

26. Immediate Effect of Hot Foot Bath and Cold Chest Pack on Heart Rate Variability in Hypertensive Individuals 

I managed a randomized controlled trial investigating the immediate effects of hot foot bath and cold chest pack on heart rate variability in hypertensive individuals. The project involved protocol development, participant recruitment, and data collection. My role included overseeing the trial and analyzing results. The findings provided insights into autonomic regulation. The study supported non-pharmacological interventions for hypertension.

27. Comparative Evaluation of Treatment Outcome Between Low Level Laser Therapy and Phonophoresis 

I managed a clinical study comparing low level laser therapy and phonophoresis for TMJ pain management. The project involved patient recruitment, randomization, and outcome assessment. My responsibilities included protocol development, data collection, and statistical analysis. The results provided evidence for the efficacy of both interventions. The study contributed to evidence-based management of TMJ disorders.

28. Immediate Effect of Cold Circular Jet on Pulmonary Function Test Among Healthy Individual 

I managed a clinical trial assessing the immediate effect of cold circular jet on pulmonary function in healthy individuals. The project involved protocol design, participant recruitment, and spirometry testing. My role included data collection and statistical analysis. The results indicated transient improvements in respiratory parameters. The study contributed to understanding the effects of cold therapy on the respiratory system.

29. Immediate Effect of Thoracic Massage with or without Eucalyptus Oil on Spirometric Variables 

I managed a comparative study evaluating the immediate effect of thoracic massage with or without eucalyptus oil on spirometric variables in healthy volunteers. The project involved protocol development, participant recruitment, and spirometry testing. My responsibilities included data collection and statistical analysis. The results demonstrated positive effects on respiratory function. The study supported the use of thoracic massage for respiratory health.

30. Immediate Effect of Full Wet Sheet Pack on Pulmonary Function Among Healthy Individual

I managed a randomized controlled trial assessing the immediate effect of full wet sheet pack on pulmonary function in healthy individuals. The project involved protocol development, participant recruitment, and spirometry testing. My role included data collection and statistical analysis. The results indicated improvements in respiratory parameters. The study contributed to evidence for hydrotherapy in respiratory health.

31. Immediate Effect of Cold Douche to Whole Body on Pulmonary Function Among Healthy Individuals 

I managed a randomized controlled trial assessing the immediate effect of cold douche to the whole body on pulmonary function in healthy individuals. The project involved protocol development, participant recruitment, and spirometry testing. My role included data collection and statistical analysis. The results indicated transient improvements in respiratory parameters. The study contributed to evidence for the use of cold hydrotherapy in respiratory health.

1. The Relevanmcy of idea of Dr. B.R. Ambedkar for Agricultural reforms in present perspective

This research project explored Dr. B.R. Ambedkar’s vision for agricultural reform and evaluated its significance in the context of modern rural development. Focusing on the districts of Sitapur, Bahraich, and Lakhimpur, the study analyzed land ownership patterns, farmer welfare policies, and structural reforms. As project manager, I oversaw data collection, stakeholder engagement, and field studies to ensure accurate regional representation. The study offered practical recommendations for applying Ambedkarite principles to address agrarian challenges today. It also emphasized the need for inclusive policy frameworks that empower marginalized farming communities. 

2. Naxalism and National Security with Special Reference to Chhattisgarh & Jharkhand: An Analytical Study

This project examined the nexus between Naxalism and national security, with a focus on the conflict-affected regions of Chhattisgarh and Jharkhand. Through an in-depth analysis of socio-political, economic, and security dimensions, the study aimed to understand the root causes of Naxalite movements and their impact on regional stability. As the project manager, I coordinated field research, interviews with local stakeholders, and comprehensive data analysis. The research highlighted the importance of a balanced approach combining development and security measures. It also provided strategic insights for policymakers seeking long-term conflict resolution in affected areas. 

Establishment of Central Research and Incubation Center 

As Joint Director of Research, I spearheaded the establishment of the Central Research and Incubation Center (CRIC) to foster innovation, interdisciplinary collaboration, and entrepreneurship. CRIC serves as a hub where diverse research converges, driving impactful discoveries and commercializing intellectual advancements. By showcasing high-impact projects and startups, it enhances the university’s national and international presence, attracting research funding and industry partnerships. With a focus on talent development, mentorship, and cutting-edge facilities, CRIC empowers students and researchers while ensuring sustainability through patents, startup equity, and strategic collaborations.

Establishment of Subharti Research and Incubation Center

Established as a Section 08 company within the university, the Subharti Research & Incubation Center was founded to drive interdisciplinary research, innovation, and entrepreneurship. This independent structure enables agility, financial autonomy, and seamless collaboration across academic disciplines. It facilitates technology transfer, patenting, and startup incubation while securing external funding and industry partnerships. By fostering a dynamic research ecosystem, the center empowers students, faculty, and researchers through mentorship, state-of-the-art facilities, and entrepreneurial initiatives, ensuring long-term sustainability and global impact.