Best Environmental Sensing Technology

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Introductio Best Environmental Sensing Technology

The Best Environmental Sensing Technology Award recognizes outstanding innovations in technology that contribute to environmental monitoring and sustainability. This award highlights advancements in sensor technology that enhance our ability to understand and protect the environment.

Award Eligibility:

This award is open to individuals, teams, and organizations worldwide that have developed innovative environmental sensing technologies. There are no age limits for applicants. Qualification requires a demonstrable impact on environmental monitoring and sustainability. Publications related to the technology are encouraged but not required.

Requirements:

Submissions must include a detailed description of the technology, its development process, and its environmental impact. Evaluation criteria include innovation, environmental impact, scalability, and potential for future applications. Submissions should be in English and follow the submission guidelines outlined below.

Submission Guidelines:

Submissions must be sent via email to the award committee and include a biography of the applicant(s), an abstract of the technology, and supporting files such as videos, images, or data sets. The deadline for submissions is [insert deadline here].

Recognition:

The winner(s) of the Best Environmental Sensing Technology Award will receive a monetary prize and recognition at a prestigious environmental conference. They will also be featured in press releases and on the award website.

Community Impact:

The winning technology will have a significant impact on environmental monitoring and sustainability, helping to protect ecosystems and improve the quality of life for communities around the world.

Biography:

Applicants should provide a brief biography highlighting their relevant experience and expertise in environmental sensing technology.

Abstract and Supporting Files:

The abstract should provide a concise overview of the technology, its development, and its environmental impact. Supporting files should include any additional information or media that helps to showcase the technology’s innovation and impact.

 

 

Best Sensor Security Technology

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Introduction Best Sensor Networking Technology

The Best Sensor Security Technology Award recognizes innovative advancements in sensor technology that enhance security measures across various industries. This prestigious award celebrates groundbreaking solutions that demonstrate exceptional reliability, efficiency, and effectiveness in detecting and preventing security breaches.

About the Award:

The ‘Best Sensor Security Technology‘ award is open to individuals and teams worldwide, regardless of age, who have made significant contributions to the field of sensor security technology. Eligible candidates must have a background in sensor technology, security, or related fields, and their work must have been published or implemented in real-world applications..

Eligibility:
  • Open to individuals, research teams, and organizations worldwide.
  • No age limits or specific qualifications required.
  • Publications related to sensor technology and security are highly valued.
  • Submissions must meet the specified requirements and evaluation criteria.
Requirements:
  • Submit a detailed description of the sensor technology, including its functionality and impact on security.
  • Provide evidence of the technology’s effectiveness through case studies or experimental data.
  • Include any relevant publications or patents related to the sensor technology.
Evaluation Criteria:
  • Innovation and originality of the sensor technology.
  • Practicality and scalability of the technology.
  • Impact and potential benefits to the security industry.
  • Technical excellence and reliability of the technology.
Submission Guidelines:
  • Submit a comprehensive proposal detailing the sensor technology and its application in security.
  • Include supporting documents such as publications, patents, and case studies.
  • Ensure all submissions are in English and meet the specified format requirements.
Recognition:
  • Winners will receive a prestigious award certificate and recognition at a special awards ceremony.
  • The winning sensor technology will be featured in prominent industry publications and websites.
Community Impact:
  • The Best Sensor Security Technology Award aims to inspire innovation and collaboration in the security industry, leading to enhanced security measures worldwide.
  • Winners will have the opportunity to showcase their technology to a global audience of industry leaders and experts.
Biography:
  • Submit a brief biography highlighting your professional background and expertise in sensor technology and security.
Abstract and Supporting Files:
  • Include an abstract summarizing the key features and benefits of the sensor technology.
  • Include any supporting files such as diagrams, videos, or technical specifications that demonstrate the functionality of the technology.

 

 

Azharuddin Khan | Electromagnetic Sensors | Best Researcher Award

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Mr. Azharuddin Khan | Electromagnetic Sensors | Best Researcher Award

Research Scholar at Electromagnetic Sensors IIT BHU Varanasi, India

Azharuddin Khan seeks a challenging role in an esteemed organization where he can apply his research expertise to develop and implement innovative solutions. He is eager to work with experienced professionals, utilize his strong analytical skills, and expand his knowledge base. His ultimate goal is to make substantial contributions to knowledge and innovation, establish himself as a recognized expert, and drive the growth and success of the organization.

Professional Profile

Education:

Mr. Azharuddin Khan has a strong educational background in Microwave Engineering, culminating in a Ph.D. from IIT BHU Varanasi, which he completed from January 2019 to December 2023, achieving a remarkable 9.2 CPI. Prior to his doctoral studies, he earned an M. Tech in Microwave Electronics from the University of Delhi South Campus, New Delhi, from 2016 to 2018, where he secured 71.4%. Mr. Khan’s academic journey began with a B. Tech in Electronics and Communication from Uttar Pradesh Technical University, Lucknow (UPTU), which he completed from 2010 to 2014, graduating with 70.46%. His secondary education at Mahatma Gandhi Inter College, Gorakhpur, under the UP Board, resulted in a respectable 65.4% in the XII(PCM) stream in 2009.

Skills:

Mr. Azharuddin Khan possesses a diverse skill set that complements his academic achievements. Proficient in various tools such as HFSS, CST, QUCS, MATLAB, VISIO, ORIGIN, and SPICE, he demonstrates a keen aptitude for utilizing software essential in his field. His expertise extends to measurement skills, particularly in Antenna Parameters measurement using VNA and spectrum analyzer, SAR analysis using DASY-4 setup, and Calibration, showcasing his practical knowledge in microwave engineering. Mr. Khan has hands-on experience in conducting laboratory experiments at both undergraduate and postgraduate levels, enriching his understanding of theoretical concepts with practical applications. His expertise in subjects like Microwave, Antenna, Electromagnetic Field Theory, and Microwave Device Measurements reflects his comprehensive grasp of core concepts in his field.

Achievements:

Mr. Azharuddin Khan’s journey is marked by several notable achievements, underscoring his academic excellence and active involvement in extracurricular activities. He demonstrated his proficiency by qualifying in the GATE exams in both 2016 and 2017, showcasing his commitment to continuous learning and growth. Mr. Khan’s participation in the “Bharat Ko Pechano” interstate quiz competition in 2011-2012 highlighted his broader interests and engagement beyond academics. His leadership qualities and commitment to service were evident during his tenure as the Executive member of the “Social Service Club” at the University of Delhi South Campus, where he actively contributed to community development initiatives. Mr. Khan’s involvement with IEEE MTT-S, first as the Joint Secretary at IIT BHU in 2019-2020 and later as the Vice-Chair at IIT BHU in 2022-2023, demonstrates his passion for his field and his dedication to fostering a collaborative and innovative environment. His academic achievements were further recognized through prestigious student travel grants from IEEE MTT-S for the IMaRC 2019 conference and the MAPCON 2022 conference, acknowledging his contributions to the field of microwave engineering. Additionally, he received student travel grants for attending the WAMS 2023 conference in Gandhinagar, Gujarat, reflecting his commitment to staying abreast of the latest developments in his field and networking with peers and experts.

Teaching:

During his Ph.D., Mr. Azharuddin Khan actively contributed as a teaching assistant, providing valuable support to students in various capacities. He supervised the Microwave laboratory sessions for B.Tech 5th and 7th-semester students, ensuring their understanding and proficiency in the subject matter. Additionally, he facilitated the Device laboratory sessions for B.Tech 3rd-semester students, guiding them through practical experiments and fostering their skills. Mr. Khan also conducted tutorial classes for B.Tech 3rd-semester students, helping them grasp complex concepts and excel in their studies. His dedication to mentorship extended to guiding M.Tech students in their thesis work, providing valuable insights and support. Moreover, he supervised several B.Tech students in their project work, totaling eight, where he played a pivotal role in shaping their academic projects and nurturing their technical abilities.

Academic Projects:

During his academic journey, Mr. Azharuddin Khan undertook several significant projects, showcasing his practical skills and innovative thinking. For his M.Tech major project, he worked on designing a Low-Noise Amplifier from January 2018 to May 2018 at the Inter-University Accelerator Centre, an Autonomous Research Centre of the University Grant Commission, New Delhi. This project likely involved advanced techniques in microwave engineering and amplifier design, highlighting his expertise in the field. In his M.Tech minor project, conducted from July 2017 to December 2017, Mr. Khan focused on the design and simulation of a meander line inverted antenna. This project would have involved the use of simulation software and practical antenna design principles, demonstrating his proficiency in antenna engineering. During his B.Tech, Mr. Khan worked on a major project titled “Advance Vehicle Security with Theft Control & Accident Notification” from January 2014 to May 2014. This project likely involved the integration of electronics and communication systems for vehicle security and safety, showcasing his multidisciplinary approach to engineering problem-solving.

Publications:

Slot-Loaded Pentagon Microstrip Patch Antenna for Hyperthermia Application at 434 MHz

Authors: Khan, A., Dubey, S.K., Singh, A.K.

Citations: 1

Year: 2023

An elliptical-shaped rectangular slot antenna at 2.48 GHz for hyperthermia application

Authors: Khan, A., Dubey, S.K., Singh, A.K.

Citations: 0

Year: 2023

A CPW Fed Circular Patch Antenna Loaded With Metamaterial For Gain Enhancement

Authors: Shrivastava, M.K., Singh, R., Kumar, P., Khan, A.

Citations: 0

Year: 2023

Series fed Circular patch Antenna 3×1 array for C Band Applications

Authors: Mishra, A., Khan, A., Dubey, S.K.

Citations: 0

Year: 2023

Square patch with symmetrical L-slots resonating at 915 MHz for Hyperthermia application

Authors: Khan, A., Mishra, A., Dubey, S.K., Singh, A.K.

Citations: 0

Year: 2023

Design of Compact Circular Shaped Slot Antenna for Wireless Sensor Networks

Authors: Mishra, A., Khan, A., Dubey, S.K.

Citations: 0

Year: 2023

Analysis of Cross-Slot Antenna at ISM band for Hyperthermia application

Authors: Khan, A., Singh, A.K., Singh, A.K.

Citations: 0

Year: 2023

Design of a Dual ISM Band Antenna at 2.5 GHz and 5.35 GHz for hyperthermia application

Authors: Khan, A., Mishra, A., Dubey, S.K., Singh, A.K.

Citations: 0

Year: 2023

SAR Analysis of Hexagonal-Shaped Slot-Loaded Patch Antenna for Hyperthermia Application at 434 MHz

Authors: Khan, A., Singh, A.K.

Citations: 4

Year: 2023

Pentagon-shaped Microstrip Patch Antenna in ISM band for Hyperthermia Application

Authors: Khan, A., Singh, A.K.

Citations: 1

Year: 2022

 

 

Dr. KeaiLim | Education using sensors | Best Researcher Award

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Dr. KeaiLim | Education using sensors | Best Researcher Award

Academic Director at Education using sensors , Amity Global Institute, Singapore

Dr. Keai Lim is an experienced Academic Director with a senior role. Dr. Lim’s expertise likely includes educational leadership, curriculum development, and academic program management. Their role may involve overseeing faculty, ensuring educational quality, and developing strategies to enhance the academic experience. Dr. Lim likely plays a key role in shaping the direction and vision of their academic institution.

Professional profile

Scopus Profile

Education:

Dr. Keai Lim is an accomplished academic professional with a Master of Education in Curriculum & Teaching from Nanyang Technological University, Singapore. Their doctoral studies culminated in a Doctor of Business Administration from Southern Cross University, Australia, focusing on TQM models in Private Education. Dr. Lim also holds an MBA from James Cook University, Australia, and a Bachelor of Arts in Business Administration from Ottawa University, Kansas, USA. They possess a Diploma in Manufacturing Engineering from Singapore Polytechnic and certifications in training, assessment, and adult education. Dr. Lim’s diverse educational background reflects their commitment to lifelong learning and professional development. Their expertise spans curriculum development, educational leadership, and research methodology, positioning them as a versatile and knowledgeable academic leader. With a passion for education and a dedication to excellence, Dr. Lim is a valuable asset to any educational institution.

Industrial / Practitioner Experience:

Dr. Keai Lim has amassed extensive industrial and practitioner experience across various roles and organizations. Currently serving as the Academic Director (Senior) at AMITY Global Institute since November 2021, Dr. Lim leads the academic department to enhance student outcomes and ensure compliance with EduTrust standards. They oversee academic policies, supervise lecturers, and manage departmental and administrative issues while participating in institutional development through research and policy discussions. Previously, as the Academic Director at SHRM College from October 2019 to October 2021, Dr. Lim established a culture of academic excellence, developed academic planning and curriculum, and supervised academic activities and staff training. They also managed overseas university partnerships. In their role as Academic Director at AMITY Global Institute from October 2015 to October 2019, Dr. Lim supported the Principal in academic processes, assessed student performance, and participated in marketing activities. Prior to this, as the Director of Studies/Vice Principal at DIMENSIONS International College from May 2008 to May 2015, they managed academic programmes, operations, and staff, ensuring compliance with EduTrust requirements and conducting staff training.  Dr. Lim’s earlier experience includes teaching business and foreign languages at Xuzhou Normal University and Xi’an Railway Vocational Technical Institute in China. They also served as a Training Officer at Trans-Island Bus Services Ltd, Project Manager/Engineer at Transtech Electronics Pte Ltd, Procurement Officer at Pioneer Electronics Asiacentre, and Assistant Design Engineer at Hitachi Electronics Devices Pte Ltd, gaining valuable skills in training, project management, procurement, and engineering.

 

Teaching Experience:

Dr. Keai Lim is a seasoned Senior Lecturer with a wealth of experience across multiple universities and academic levels. Currently teaching at the University of Northampton and Teesside University, Dr. Lim delivers modules in Competitive Strategy and Innovation, Entrepreneurship Report, and Management and Organisational Behaviour at the MBA level. They also teach modules in Educational Research, Literature Review, and Dissertation Supervision at the Doctor of Education and MA in Education levels at Teesside University. Dr. Lim’s expertise extends to teaching Data Science modules at the MSc level, including Research Methods (Data Science). Their teaching portfolio also includes Strategic Management, Organisational Behaviour, and Leadership at the MBA level at the University of London. Over the years, Dr. Lim has taught a wide range of modules at various universities, including Anglia Ruskin University, University of Stirling, Wrexham Glyndwr University, and University of Chester. Their dedication to education and diverse teaching experience make them a valuable asset in fostering academic excellence and professional development among students.

Publications:

Leveraging Information Technology for Effective Inventory Management in Singapore’s Supply Chain Industry
International Business Logistics, 3(2), pp. 1-19.
Citation: Lim, K., Chang, C.S., & Goh, J.H. (2023)
Link to the article

SISTIC adaptation to the digitalisation of the entertainment industry
Book Chapter in Singapore Inc.: A Century of Business Success in Global Markets: Strategies, Innovations, and Insights from Singapore’s Top Corporations, pp. 167-168.
Citation: Lim, K. (2023)

City Developments Limited’s focus on sustainable urban development
Book Chapter in Singapore Inc.: A Century of Business Success in Global Markets: Strategies, Innovations, and Insights from Singapore’s Top Corporations, pp. 106-107.
Citation: Lim, K. (2023)

CapitaLand’s expansion into China
Book Chapter in Singapore Inc.: A Century of Business Success in Global Markets: Strategies, Innovations, and Insights from Singapore’s Top Corporations, pp. 60-62.
Citation: Lim, K. (2023)

Quest Global attracting and retaining top engineering and technical talent in a competitive market
Book Chapter in Singapore Inc.: A Century of Business Success in Global Markets: Strategies, Innovations, and Insights from Singapore’s Top Corporations, pp. 13-15.
Citation: Lim, K. (2023)

The Determinants of Employee Satisfaction, Loyalty, and Performance: The Role of Workplace Flexibility in Singapore
Amity Business Journal, 10(1), pp. 153-165.
Citation: Lim, K., Wong, W.N., & Jesse, G. (2023)

Unravelling the Peculiarity of Dropout Trends in Indian University Engineering Programmes: Insights Inspired by the Movie ‘Three Idiots’
The Excellence in Education Journal, 12(2), pp. 4-38.
Citation: Lim, K. (2023) Link to the article

Authentic Assessment, Teacher Pedagogy, and Student Satisfaction
Basic and Applied Education Research Journal, 3(2), pp. 108–121.
Citation: Lim, K. (2022)

The mediating role of curriculum design and development on the ICT curricular initiative in Singapore private institution
International Journal of Research in Education and Science (IJRES), 8(3), pp. 596–610.
Citation: Lim, K. (2022)