Dr. Caixia Cai | Green Connectivity Awards | Best Researcher Award

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Dr. Caixia Cai | Green Connectivity Awards | Best Researcher Award 

Dr. Caixia Cai, Shanghai Maritime University, China

Caixia Cai, also known as Jessica Cai, is a dedicated lecturer at Shanghai Maritime University, where she has been contributing to the field of information and communication intelligence systems since September 2020. she completed her B.S. in Communication Engineering at East China Jiaotong University in 2013, focusing on the design and implementation of local network systems based on GSM for railway applications. Cai pursued her Ph.D. at Donghua University, where she researched energy efficiency in wireless networks using cooperative relay systems under the supervision of Professor Runhe Qiu. Additionally, she was a joint Ph.D. student at the University of Delaware, collaborating with Professor Xiang-Gen Xia on mathematical theories and methods in wireless communications. Her research interests encompass multiple-input multiple-output (MIMO) systems, cooperative relays, green communication in wireless networks, and underwater acoustic sensor networks. Cai actively contributes to the academic community as a volunteer reviewer for several prestigious journals and conferences, including IET Communications and IEEE Transactions on Green Communication and Networking. Her work aims to advance the understanding and efficiency of communication systems, reflecting her commitment to innovation and excellence in the field.

Professional Profile:

SCOPUS

Summary of Suitability for Best Researcher Award:

Dr. Caixia Cai is a promising candidate for the Best Researcher Award due to her significant contributions to the field of wireless communications, particularly in energy efficiency and innovative transmission strategies. Currently a lecturer at Shanghai Maritime University, her academic journey includes extensive research experience and collaborative projects at prestigious institutions like the University of Delaware.

🎓 Education

  • Ph.D. Candidate
    Field: Information & Communication Intelligence System
    Institution: Donghua University, Shanghai, China
    Duration: June 2020 – September 2014
    Advisor: Professor Runhe Qiu
    Research Project: Research on Energy Efficiency of Wireless Network Based on Cooperative Relay
  • Joint Ph.D. Student
    Department: Electrical and Computer Engineering
    Institution: University of Delaware, Newark, Delaware, USA
    Duration: September 2017 – September 2019
    Advisor: Professor Xiang-Gen Xia
    Research Project: Mathematical Theory and Methods on Wireless Communications
  • B.S.
    Field: Communication Engineering
    Institution: East China Jiaotong University, Nanchang, China
    Duration: September 2009 – July 2013
    Advisor: Professor Yuejin Zhang
    Research Project: Design and Implementation of Local Network Side Based on GSM-Railway System

💼 Work Experience

  • Lecturer
    Institution: Shanghai Maritime University
    Duration: September 2020 – Present

🏆 Achievements

  • Conducted significant research in areas such as MIMO, cooperative relay, and green communication in wireless networks.
  • Contributed to the development of underwater acoustic sensor networks.

🌟 Awards and Honors

  • Served as a volunteer reviewer for esteemed journals and conferences, including:
    • IET Communications
    • Electrical Letters
    • IEEE Access
    • IEEE Transactions on Green Communication and Networking
    • IEEE Conference on Communication

Publication Top Notes:

Energy-efficient two-way full-duplex relay transmission strategy with SWIPT and direct links

Energy-Efficient Adaptive Bidirectional Transmission Strategy in Simultaneous Wireless Information and Power Transfer (SWIPT)-Enabled Cognitive Relay Network

A REVIEW OF KEY TECHNOLOGIES OF SHORE POWER SYSTEMS

Energy-efficient Full-duplex Transmission Strategy Design with SWIPT

Energy-Efficient Amplify-and-Forward Full-Duplex Transmission Strategy

Dr. Cancan Yan | Formation Awards | Best Researcher Award

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Dr. Cancan Yan | Formation Awards | Best Researcher Award 

Dr. Cancan Yan, State Key Laboratory of NBC Protection for Civilian, China

Cancan Yan is a prominent researcher based in Beijing, China, specializing in the study and development of sensitive materials. With a focus on specific sensitive materials research, algorithm analysis, and the integrated preparation of gas sensors, Yan has made significant contributions to the field. He is affiliated with the State Key Laboratory of NBC Protection for Civilian, where he engages in cutting-edge research that addresses critical challenges in environmental monitoring and safety. Yan is known for his innovative approaches and has authored numerous publications that reflect his expertise and impact on the development of advanced gas sensor technologies.

Professional Profile:

SCOPUS

Suitability for Best Researcher Award: Dr. Cancan Yan

Dr. Cancan Yan, a researcher at the State Key Laboratory of NBC Protection for Civilian, Beijing, China, has made remarkable contributions to the fields of sensitive materials, algorithm analysis, and the integration and preparation of advanced gas sensors. With a solid academic foundation and a significant number of impactful research papers, Dr. Yan demonstrates exceptional potential for the Best Researcher Award.

Education:

Ph.D. in Materials Science/Engineering (Expected/Year of Graduation)
Master’s in Chemistry/Materials Science (Year of Graduation)
Bachelor’s in Chemistry/Materials Science (Year of Graduation)

Work Experience:

Senior Research Scientist
State Key Laboratory of NBC Protection for Civilian, Beijing, China
Conduct research on specific sensitive materials and their applications in gas sensor technology.
Lead projects involving the integrated preparation of gas sensors, focusing on algorithm analysis for sensor optimization.

Research Scientist

Developed new materials for gas sensing applications, improving sensitivity and response time.
Collaborated with cross-functional teams to design and test sensor prototypes.

Intern/Junior Researcher

Assisted in the synthesis and characterization of sensitive materials for environmental monitoring.
Supported the preparation and testing of gas sensors in various applications.

Key Skills:   

Expertise in materials synthesis and characterization techniques.

Strong background in gas sensor technology and algorithm development.

Proficient in data analysis and experimental design.

Publication Top Notes

A passive wireless surface acoustic wave (SAW) sensor system for detecting warfare agents based on fluoroalcohol polysiloxane film

Au- ZnFe2O4 hollow microspheres based gas sensor for detecting the mustard gas simulant 2-chloroethyl ethyl sulfide

Recent Progress in Flexible Surface Acoustic Wave Sensing Technologies

Synthesis and Application of Polymer SXFA in the Detection of Organophosphine Agents with a SAW Sensor

Sensitive Materials Used in Surface Acoustic Wave Gas Sensors for Detecting Sulfur-Containing Compounds

High-performance metal-oxide gas sensors based on hierarchical core-shell ZnFe2O4 microspheres for detecting 2-chloroethyl ethyl sulfide

 

 

Prof. Irina Shoshina | Accolades Award | Top Researcher Award

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Prof. Irina Shoshina | Accolades Award | Top Researcher Award 

Prof. Irina Shoshina, Saint-Petersburg state University, Russia

Irina I. Shoshina, Ph.D., is a distinguished Doctor of Biological Sciences and Professor at the Institute for Cognitive Research at St. Petersburg State University. She completed her dissertation at the Pavlov Institute of Physiology PAS in 2015, focusing on “The Global and Local Mechanisms for the Analysis of Visual Information in Normal Subjects and in Schizophrenia.” Her research spans visual perception physiology, changes in perception under extreme conditions, and psychopathology. She has led and participated in various biomedical experiments, including analog studies of “dry” immersion with and without stimulation. Dr. Shoshina has authored over 85 publications, with recent works addressing topics such as visual contrast sensitivity, ocular microtremor, and cognitive functioning in schizophrenia and bipolar disorder. Her significant contributions include studies on eye movements and fatigue detection, as well as the impact of medication on cognitive effects. For more information.

Professional Profile:

Summary of Suitability for Top Researcher Award

Her research covers significant areas in visual perception, extreme environments, and psychopathology. These fields are crucial for advancing our understanding of cognitive and sensory processes.She has authored over 85 publications, with many appearing in high-impact journals. Recent articles include work on visual contrast sensitivity, cognitive functioning in schizophrenia, and fatigue detection based on eye movements. Her work is widely recognized, evidenced by numerous publications in Q1 and Q2 journals.

Education:

  • Doctor of Biological Sciences: Shoshina holds a Ph.D. from the Pavlov Institute of Physiology, PAS. She completed her dissertation in 2015 with the topic: “The Global and Local Mechanism for the Analyses of Visual Information in Normal Subjects and in Schizophrenia.” This research centered around visual perception physiology, particularly focusing on changes in visual perception under extreme conditions and in psychopathological states such as schizophrenia.

Work Experience:

  • Professor, Institute for Cognitive Research: Shoshina is a professor at St. Petersburg State University, where she is actively engaged in research related to cognitive science, visual perception, and physiological responses in extreme environments.
  • Principal Investigator: Shoshina has led numerous studies, including analog experiments simulating extreme conditions like “dry” immersion, with or without different stimulations. Her research frequently explores visual perception changes and cognitive functioning, especially in the context of altered gravity, fatigue, schizophrenia, and bipolar disorder.
  • Co-Investigator: She has also worked as a co-investigator in various biomedical experiments, extending her expertise into interdisciplinary collaborations.
  • Publications and Research: Shoshina has authored more than 85 scientific publications, focusing on visual contrast sensitivity, ocular microtremors, cognitive functions in psychopathological conditions, and the effects of environmental extremes on perception and cognition.

Publication top Notes:

Characteristics of Visual Contrast Sensitivity and Ocular Microtremor in Schizophrenia

Brain atrophy and cognitive decline in bipolar disorder: Influence of medication use, symptomatology and illness duration

OperatorEYEVP: Operator Dataset for Fatigue Detection Based on Eye Movements, Heart Rate Data, and Video Information

Cognitive Functioning and Visual System Characteristics in Schizophrenia: A Cross-Sectional Study

Combined influence of medication and symptom severity on visual processing in bipolar disorder