Conducted Under IEEE MTT-S & IEEE-AESS Chapter SBC11474
ABV-Indian Institute of Information Technology and Management, Gwalior

Color image watermarking with watermark authentication against false positive detection using SVD

Join Neha Singh for an engaging webinar on color image watermarking using Singular Value Decomposition (SVD), where you will explore advanced techniques for secure watermark embedding and authentication. Learn how to minimize false positive detection, enhance robustness, and ensure reliable digital image protection, with practical insights into real-world applications in cybersecurity, digital forensics, and secure multimedia communication systems.

April 19, 2026
06:30 p.m. Pacific time
00 Days
00 Hours
00 Minutes
00 Seconds
Register Now - Free

About This Webinar

This insightful webinar explores advanced techniques in color image watermarking using Singular Value Decomposition (SVD). How can digital images be securely protected? What methods ensure accurate watermark authentication while reducing false positive detection? And how can these techniques strengthen modern multimedia security systems?

🧠

Fundamentals of Image Watermarking

Understand the core principles of digital image watermarking, including types of watermarking, color image processing, and the importance of data security and ownership protection.

🔐️

SVD-Based Authentication Techniques

Learn how Singular Value Decomposition (SVD) is applied to embed and extract watermarks, improving robustness while minimizing false positive detection in authentication systems.

Practical Applications & Security

Explore real-world applications in copyright protection, medical imaging, digital forensics, and secure communication, highlighting how watermarking ensures data integrity and trust.

Key Publications & Research

Neha Singh’s webinar focuses on advanced color image watermarking techniques using SVD, emphasizing secure authentication, false positive detection reduction, and robust multimedia protection, providing a strong foundation for modern digital security and signal processing innovation.

"Tunnel field effect transistor device structures: A comprehensive review"

Materials Today: Proceedings 79, 292-296, 2023

"Low power adder circuits using various leakage reduction techniques"

Intelligent Computing Techniques for Smart Energy Systems: Proceedings of …, 2019.

"Electrical behavior of plant based material"

Materials Today: Proceedings 79, 349-354, 2023

"Intelligent computing techniques for smart energy systems"

Incomplete citation; further details required, 2023.

"Low-power memory design for IoT-enabled systems: Part 2"

Electrical and Electronic Devices, Circuits and Materials, 63-80, 2021.

Why This Webinar Matters

Color image watermarking plays a vital role in protecting digital media ownership and integrity in an era of rapid content sharing. Ensuring robust watermark authentication—especially against false positive detection—is crucial for preventing unauthorized claims, enhancing trust in digital assets, and strengthening cybersecurity frameworks. Using SVD-based techniques offers improved resilience, accuracy, and reliability in watermark verification.

Who Should Attend

Researchers and practitioners in image processing, cybersecurity professionals, data scientists, students in computer science and signal processing, and anyone interested in digital rights management, multimedia security, and advanced watermarking techniques.

Learning Outcomes

Participants will gain a solid understanding of SVD-based color image watermarking methods, techniques for embedding and extracting watermarks, strategies to prevent false positive detection, and practical insights into building secure and reliable watermark authentication systems.

Featured Speaker

Dr. Neha Singh
Dr. Neha Singh

Ph.D, MANIPAL UNIVERSITY JAIPUR, 2020

VLSI Design and Nanodevices.

Senior Member of IEEE.

Department of Electronics & Communication Engineering

Dr Neha Singh is a well-rounded and dynamic teaching professional with 21 years of in-depth experience in educating undergraduate and postgraduate engineering students in Electronics & Communication Engineering.

She is currently working in the Department of Electronics & Communication Engineering at Manipal University Jaipur, Rajasthan, India. She did her PhD in the year 2020.

Her areas of research interest include Image Processing, Machine learning, VLSI design and nanodevices. She has several indexed papers and chapters published in Journals, conferences and books of repute. She has co-authored engineering textbooks and edited three books with international publishers. She has served as reviewer in various International and peer reviewed Journals and conferences. She has convened various international conference and other events.

She has guided several M Tech Dissertations and B Tech projects and guiding PhD scholars as well. She is a Senior Member of IEEE.

VLSI Design
Machine Learning
Image Processing
Digital Image Forensics
21+
Years Experience
49+
Publications
IEEE
Senior Member
TSC
Founding Contributor

Academic Profiles

ORCID: 0000-0001-6492-4278

SCOPUS ID: 56972994500

Webinar Curriculum

A systematic study of Very Large Scale Integration (VLSI), grounded in electronics, semiconductor physics, and modern chip design methodologies.

1. What Is VLSI?

• Definition and evolution of integrated circuits
• From SSI, MSI to VLSI and beyond (ULSI)
• Basic building blocks: transistors, logic gates, and circuits
• VLSI as a scalable and deterministic engineering discipline

2. Challenges in Modern VLSI

• Power, performance, and area (PPA) trade-offs
• Scaling limitations and Moore’s Law slowdown
• Process variation and reliability issues

3. Tools and Technologies in VLSI

• EDA (Electronic Design Automation) tools overview
• Hardware description languages (Verilog, VHDL)
• Simulation and verification tools

4. Future of VLSI

• Advanced nodes (FinFET, GAAFET technologies)
• AI-driven chip design and automation
• 3D ICs and heterogeneous integration
• Sustainable and energy-efficient chip design

5. Powering the Future: VLSI in Everyday Life

• Chips behind smartphones, wearables, and smart homes
• Role of VLSI in AI, autonomous vehicles, and space tech
• How tiny circuits drive massive innovations

6. Careers in VLSI: Pathways to the Semiconductor Industry

• Roles: Design engineer, verification engineer, physical design engineer
• Skills required and learning roadmap
• Opportunities in top companies (Intel, NVIDIA, Qualcomm, etc.)

7. Conclusions

• VLSI as the backbone of modern digital systems and innovation
• Integration of theory, design, and fabrication into a unified discipline
• The critical role of efficient design in shaping future technologies
• Continuous evolution driven by emerging applications and challenges
• Encouragement to explore VLSI as a field of innovation, research, and career opportunity

Frequently Asked Questions

. What is color image watermarking?
Color image watermarking is the process of embedding hidden information (watermarks) into a color image to protect ownership, ensure authenticity, and prevent unauthorized use.
How does this webinar address false positive detection?
The webinar introduces techniques and validation strategies that reduce the likelihood of false positives by improving watermark uniqueness, detection thresholds, and verification mechanisms.
Do I need prior knowledge of color image watermarking?
Basic understanding of watermarking, usually don’t need prior knowledge of color image watermarking to attend a webinar—especially if it’s designed for beginners or mixed-level learners.
How can I prepare for the webinar?
Learn basics of digital images (RGB, pixels), understand watermarking concepts, explore LSB, DCT, DWT techniques, review key terms like embedding and robustness, and watch a short demo for practical understanding.
Will I receive a certificate?
Yes. All registered participants will receive a certificate of attendance and access to supplementary materials after the webinar.

Register for Free

Join us for this exciting exploration of VLSI and discover the principles, tools, and innovations that power the chips driving today’s digital world.

[contact-form-7 id="7c32e79" title="Cover dependent watermarking against ambiguity attacks by Dr. Neha Singh"]

OurTestimonial

[wp-testimonials widget-id=3]

Reserve Your Spot Today

Limited seats available for this in-depth webinar on Color Image Watermarking with Watermark Authentication against False Positive Detection using SVD with Neha Singh

Register Now

Supporting UN Sustainable Development Goals

This webinar explores secure color image watermarking using SVD, promoting data authenticity, reducing false detection, strengthening cybersecurity, supporting healthcare integrity, and advancing innovation aligned with key Sustainable Development Goals.

Primary Focus

SDG 4: Quality Education

Key Target:
Target 4.7: Ensure all learners acquire knowledge and skills needed to promote sustainable development, including through education for human rights and appreciation of cultural diversity.

Provides learners and researchers with knowledge of image security, authentication methods, and false positive reduction techniques, enhancing technical education in cybersecurity and signal processing.

SDG 3: Good Health and Well-Being

Key Target:
Target 3.4: Promote mental health and well-being through understanding of self and consciousness.

Enhances the security and authenticity of medical images (such as MRI, CT scans, and X-rays) through robust watermarking techniques, ensuring accurate diagnosis and preventing data tampering. Reliable image authentication helps healthcare professionals make safer decisions, ultimately improving patient care and well-being.

SDG 9: Industry, Innovation and Infrastructure

Key Target:
Target 9.5: Enhance scientific research and innovation in consciousness studies and AI ethics.

Promotes advanced research in digital watermarking and SVD-based techniques, strengthening secure digital infrastructure and fostering innovation in multimedia technology.

How This Webinar Contributes to Global Goals

Advancing Secure Communication

Enhancing knowledge of color image watermarking techniques using SVD to protect digital media from unauthorized use and tampering.

Ensuring Authenticity & Trust

Introducing robust watermark authentication methods that reduce false positive detection, ensuring reliable ownership verification and data integrity.

Supporting Cybersecurity Innovation

Empowering researchers and engineers with advanced techniques to strengthen multimedia security in applications like copyright protection, medical imaging, and digital forensics.